CN207866715U - Chemiluminescence detector - Google Patents

Abstract

The utility model provides a kind of chemiluminescence detector, including：Reagent storage means are used for storing reagent；Reaction unit is operated for carrying reaction vessel and carrying out sample-adding sheet, reagent adding and incubate；The reaction unit include for carry the reaction vessel and carry out that reagent adding and mixing operate react outer disc mechanism and for carrying the reaction vessel and carrying out incubating disc mechanism in the reaction of operation, the outer disc mechanism of the reaction is sheathed on the outside of disc mechanism in the reaction and independently runs；Dispenser；Cleaning device；And measuring device；The reagent storage means, the dispenser, the cleaning device and the measuring device enclose the side of the disc mechanism outside the reaction.In this way, the outer disc mechanism of reaction can be carried out at the same time with the operation reacted on interior disc mechanism and there is no interference, the detection speed of chemiluminescence detector is improved, and then ensure detection efficiency.

Description

Chemiluminescence detector

Technical field

The utility model is related to chemiluminescence detection technology fields, more particularly to a kind of chemiluminescence detector.

Background technology

Chemiluminescence immunoassay is a kind of vitro detection for being combined antigen-antibody immune response and luminescence-producing reaction Analytical technology, it is based on Immunology, a variety of to detect by collecting optical signal using luminous marker as tracer signal Marker has high sensitivity, the advantage that non-specific adsorption is low, accuracy rate is high.With the high speed development of biological medicine equipment, Realize that the full-automation of chemiluminescence detector has certain condition.

Have become ripe medical diagnosis generally, based on the chemiluminescence detector of chemiluminescence immunoassay and set It is standby.However, universal chemiluminescence detector equipment price is expensive, volume is heavy, power hungry, it is difficult to universal and popularization.And With the high speed development of biological medicine equipment, realize that the full-automation of chemiluminescence detector has certain condition.

Chemiluminescence detector mainly include reaction cup loading device, sample adding device, incubation reaction device, cleaning device, Measuring device, control system and software systems.But each section of process of current chemiluminescence detector as plus reaction cup, Sample-adding this, the processes such as reagent adding and mixing be distributed in assembly line when executing, cause each section of process when being executed can holding time And larger space is occupied, influence detection efficiency.

Utility model content

Based on this, it is necessary to holding time and occupancy larger space when being executed for each section of process that current sample reacts Caused by long operational time problem, provide it is a kind of shortening run time, reduce occupied space, improve detection efficiency chemistry hair Optical detector.

Above-mentioned purpose is achieved through the following technical solutions：

A kind of chemiluminescence detector, including：

Reagent storage means are used for storing reagent；

Reaction unit is operated for carrying reaction vessel and carrying out sample-adding sheet, reagent adding and incubate；The reaction dress Set including for carry the reaction vessel and carry out that reagent adding and mixing operate react outer disc mechanism and for carrying it is described Reaction vessel simultaneously carries out incubating disc mechanism in the reaction of operation, and the outer disc mechanism of the reaction is sheathed on disc mechanism in the reaction Outside is simultaneously independently run, and the setting coaxial with disc mechanism in the reaction of the outer disc mechanism of the reaction；

Dispenser, for sample and reagent to be transferred to respectively in the reaction vessel；

Cleaning device, for removing the impurity in the reaction vessel；And

Measuring device, for being detected to the determinand in the reaction vessel；

The reagent storage means, the dispenser, the cleaning device and the measuring device are enclosed set on described anti- Answer the side of outer disc mechanism.

In one of the embodiments, the reaction unit further include buffering disc mechanism, the buffering disc mechanism independently of The outer disc mechanism setting of the reaction, and positioned at the side of the outer disc mechanism of the reaction.

The dispenser includes sample charging mechanism and pipetting device, the sample charging mechanism position in one of the embodiments, In the side of the buffering disc mechanism, for sample to be transferred in the reaction vessel of the buffering disc mechanism；The shifting Liquid mechanism corresponds to the outer disc mechanism of the reaction and the reagent is stored machine by reagent storing mechanism setting, the pipetting device Outside agent transfer to the reaction in structure in the reaction vessel of disc mechanism.

The outer disc mechanism of the reaction has multiple reaction stations in one of the embodiments, including adds a glass station, additional examination Agent station and incubation take a glass station；Disc mechanism, which has to incubate, in the reaction puts a glass station；

The buffering disc mechanism corresponds to the setting of described plus cup station, and the reaction vessel in the buffering disc mechanism is turned It moves on in the described plus cup station of the outer disc mechanism of the reaction；

The pipetting device and the reagent storage means correspond to reagent adding station setting, and the pipetting device is by institute The reagent adding station for stating agent transfer to the outer disc mechanism of the reaction in reagent storage means corresponds to the reaction vessel In；

The incubation takes glass station to put a glass station with the incubation and is correspondingly arranged, described anti-in the outer disc mechanism of the reaction It answers container to take glass station to be removed in the incubation and be transferred to the incubation of disc mechanism in the reaction and puts glass station.

There is disc mechanism cleaning a glass station, the reaction station to be taken also to wrap in the reaction in one of the embodiments, It includes cleaning and puts a glass station；

The cleaning device corresponds to the cleaning and glass station and described clean is taken to put a glass station setting respectively, in the reaction The reaction vessel in disc mechanism takes a glass station to be removed and is transferred in the cleaning device, the cleaning in the cleaning The cleaning that the reaction vessel in device is transferred to the outer disc mechanism of the reaction is put in glass station.

The reaction station further includes mixing station in one of the embodiments,；The chemiluminescence detector also wraps Include evenly mixing device, the evenly mixing device is set on the outer disc mechanism of the reaction, and the corresponding mixing station setting, for pair The mixture in the reaction vessel in the outer disc mechanism of the reaction carries out mixing operation.

Described in one of the embodiments, plus cup station, the cleaning put a glass station, the reagent adding station, described Mixing station and the incubation take glass station sequentially to arrange on disc mechanism outside the reaction.

The chemiluminescence detector further includes the reaction for conveying the reaction vessel in one of the embodiments, Container automatic conveying device；The reaction vessel automatic conveying device is located at the side of the buffering disc mechanism；

The chemiluminescence detector also there is new cup to grab cup mechanism, and the new cup grabs cup mechanism and corresponds to the reaction vessel Automatic conveying device and reaction unit setting, are used for the reaction vessel in the reaction vessel automatic conveying device It is transferred in the buffering disc mechanism.

Also there is the chemiluminescence detector sample to grab cup mechanism in one of the embodiments, incubation grabs cup mechanism, Cleaning, which is grabbed cup mechanism and measured, grabs cup mechanism；

The sample grabs that cup mechanism corresponds to the buffering disc mechanism and the described plus cup station of the outer disc mechanism of the reaction is set It sets, for the reaction vessel for having added sample in the buffering disc mechanism to be transferred to outside the reaction in disc mechanism；

The incubation, which grabs cup mechanism and corresponds to the incubation of the outer disc mechanism of the reaction, takes glass station and the reaction inner disc The incubation put the setting of glass station, for by the reaction vessel outside the reaction disc mechanism and disc mechanism in described react Between shift；

The cleaning grabs cup mechanism and corresponds to the cleaning device and the outer disc mechanism setting of the reaction, is used for the reaction Container shifts outside the reaction between disc mechanism and the cleaning device；

The measurement grabs cup mechanism and corresponds to the cleaning device and measuring device setting, is used for the cleaning device The reaction vessel after the completion of middle cleaning is transferred in the measuring device.

The measuring device is arranged adjacent to the cleaning device in one of the embodiments,.

The chemiluminescence detector further includes sample conveying device in one of the embodiments, for sample is defeated It send to sample position；The sample position is located at the side of the buffering disc mechanism and the corresponding sample charging mechanism setting；It is described Sample charging mechanism is drawn sample in sample position and is transferred in the reaction vessel of the reaction unit.

The sample conveying device includes sample storing mechanism and stores machine with the sample in one of the embodiments, The sample conveying mechanism that structure is detachably connected stores multiple sample racks for being mounted with sample in the sample storing mechanism, described The sample rack is transported in the sample conveying mechanism by sample storing mechanism, and is delivered to institute by the sample conveying mechanism State sample position.

The input terminal of the sample conveying mechanism can be with the sample storing mechanism pair in one of the embodiments, It connects, or is docked with the output end of the sample conveying mechanism of another chemiluminescence detector；

The output end of the sample conveying mechanism can be with the sample conveyer of another chemiluminescence detector The input terminal of structure docks.

The chemiluminescence detector further includes consumption material box loading device in one of the embodiments, for passing automatically The defeated consumptive material the storage box for loading fluid suction head, and the consumptive material the storage box can also be delivered to and load position by the consumption material box loading device It sets；The sample charging mechanism loads the fluid suction head in the " loaded " position, and shifts sample by the fluid suction head.

It is separate to be located at the reaction vessel automatic conveying device for the consumption material box loading device in one of the embodiments, The buffering disc mechanism side, and the corresponding sample charging mechanism setting.

The chemiluminescence detector further includes pedestal in one of the embodiments, and the pedestal has carrying platform, The reaction unit, the measuring device, the cleaning device, the dispenser and the reagent storage means may be contained within On the carrying platform.

The chemiluminescence detector further includes control device and fluid path device in one of the embodiments,；The control Device processed and the reaction unit, the measuring device, the cleaning device, the dispenser and the reagent storage means Electrical connection, the fluid path device are connect with the dispenser；Also there is the pedestal accommodating space, the accommodating space to be located at The lower section of the carrying platform, the control device and fluid path device are set in the accommodating space.

After adopting the above technical scheme, the beneficial effects of the utility model are：

The chemiluminescence detector of the utility model, when pattern detection, reacting outer disc mechanism can carry with sample Reaction vessel, and reagent adding and mixing operation are carried out to reaction vessel, the reaction after mixing can be carried by reacting interior disc mechanism Container, and incubation operation is carried out to the mixture of mixing in reaction vessel；Reaction vessel after incubation is clear in cleaning device again Impurity is washed off, then determinand is detected by measuring device again.The outer disc mechanism of reaction is independently transported with interior disc mechanism is reacted The operation in enabling to react outer disc mechanism and reacting on disc mechanism of going can be carried out at the same time and there is no interference, effectively Solve the problems, such as when each section of process of current sample reaction executes can long operational time caused by holding time, improve The detection speed of chemiluminescence detector, and then ensure detection efficiency.Moreover, the outer disc mechanism of reaction is sheathed on disc mechanism in reaction Outside can greatly reduce reaction unit the space occupied, and then reduce the machine volume of chemiluminescence detector so that chemistry Luminometer it is compact-sized, be conducive to miniaturization.

Description of the drawings

Fig. 1 is the schematic top plan view of the chemiluminescence detector of one embodiment of the utility model；

Fig. 2 is the outer disc mechanism of reaction and the structural schematic diagram for reacting interior disc mechanism in chemiluminescence detector shown in FIG. 1；

Fig. 3 is the outer disc mechanism of reaction shown in Fig. 2 and reacts the structural schematic diagram for removing insulation cover structure in interior disc mechanism；

Fig. 4 is the stereogram that outer one angle of disc mechanism of reaction shown in Fig. 3 is seen down from above；

Fig. 5 is the stereogram that the outer disc mechanism of reaction shown in Fig. 4 looks up from below；

Fig. 6 is the stereogram of another angle of the outer disc mechanism of reaction shown in Fig. 4；

Fig. 7 is the stereogram that external disk carrier is reacted in the outer disc mechanism of reaction shown in Fig. 4；

Fig. 8 is the schematic cross-sectional view of the outer disc mechanism of reaction shown in Fig. 4；

Fig. 9 is the stereogram of disc mechanism in reaction shown in Fig. 2；

Figure 10 is the vertical view that disc mechanism removes insulation cover structure in reaction shown in Fig. 9；

Figure 11 is the schematic cross-sectional view of disc mechanism in reaction shown in Fig. 9；

Wherein：

10- pedestals；

11- reagent storage means；

11- the first reagent storing mechanisms；

12- dispensers；

121- sample charging mechanisms；

122- pipetting devices；

13- reaction units；

131- buffers disc mechanism；

132- reacts outer disc mechanism；

1321- reacts external disk carrier；

13211- putting holes；

1322- reacts external disk mounting structure；

13221- reacts external disk mounting base；

13222- reacts external disk support column；

13223- reacts external disk mounting hole；

1323- reacts external disk driving structure；

13231- reacts outer disk-drive motor；

13232- reacts external disk transmission component；132321- reacts external disk driving wheel；132322- reacts external disk synchronous belt；

1324- guide and limit structures；

13241- rolling supports；

13242- guide and limit guide rails；

13243- lubrication assemblies；

1325- compressing structures；

13251- compresses mounting base；

13252- compresses guide rod；

13253- compresses elastic component；

13254- is fixed seat；

1326- tension structures；

13261- tensioning wheels；

13262- is tensioned guide rod；

13263- is tensioned elastic component；

13264- tightening rails；

13265- is tensioned sliding block；

13266- is tensioned connecting component；

1327- reacts external disk detection structure；

13271- reacts external disk induction pieces；

13272- reacts external disk and initializes detection piece；

Disc mechanism in 133- reactions；

1331- reacts inner disc carrier；

13311- incubates hole；

1332- reacts inner disc mounting structure；

13321- reacts inner disc mounting base；

13322- reacts inner disc support column；

13323- reacts inner disc mounting post；

1333- reacts inner disc driving structure；

13331- rotating platforms；

13332- rotating pads；

1334- reacts inner disc detection structure；

13341- reacts inner disc detection piece；

13342- reacts inner disc induction pieces；

1335- reacts structure of controlling temperature；

13351- reacts heating component；

133511- constant temperature seats；

133512- heating members；

The heating tapes 133513- fixture block；

13352- reacts heat insulation module；The bottoms 133521- heat-preservation cotton；133522- inner wall heat-preservation cottons；133523- outer walls are protected Wen Mian；133524- heat insulations；

1336- insulation cover structures；

13361- lids；133611- incubations put a glass slot；133612- cleanings take a glass slot；

13362- lid pillars；

13363- locked components；

133631- locking pieces；

133632- lock pieces；

133633- shifting parts；

13364- core caps；

13367- fixation kits；The outer briquetting of 133671- annulars；133672- guide pins；Briquetting in 133673- annulars；

13368- core heat-preservation cottons；

13369- observation lids；

14- cleaning devices；

15- measuring devices；

16- grabs cup device；

The new cups of 161- grab cup mechanism；

162- samples grab cup mechanism；

163- incubations grab cup mechanism；

Cup mechanism is grabbed in 164- cleanings；

Cup mechanism is grabbed in 165- measurements；

17- reaction vessel automatic conveying devices；

18- consumption material box loading devices；

19- sample conveying devices；

191- sample storing mechanisms；

192- sample conveying mechanisms；

20- reaction vessels.

Specific implementation mode

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, by the following examples, it and ties Attached drawing is closed, the chemiluminescence detector of the utility model is further elaborated.It should be appreciated that tool described herein Body embodiment only to explain the utility model, is not used to limit the utility model.

It should be noted that being herein component institute serialization number itself, such as " first ", " second " etc., it is only used for distinguishing Described object does not have any sequence or art-recognized meanings.And " connection ", " connection " described in the application, unless otherwise instructed, Include directly or indirectly connecting (connection).In the description of the present invention, it should be understood that term "upper", "lower", The instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " clockwise ", " counterclockwise " Orientation or positional relationship be to be based on the orientation or positional relationship shown in the drawings, be merely for convenience of description the utility model and letter Change description, do not indicate or imply the indicated device or element must have a particular orientation, with specific azimuth configuration and Operation, therefore should not be understood as limiting the present invention.

In the present invention unless specifically defined or limited otherwise, fisrt feature is "above" or "below" second feature Can be that the first and second features are in direct contact or the first and second features pass through intermediary mediate contact.Moreover, first is special Sign second feature " on ", " top " and " above " can be fisrt feature and be directly above or diagonally above the second feature, or only Indicate that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be with It is that fisrt feature is directly under or diagonally below the second feature, or is merely representative of fisrt feature level height and is less than second feature.

Referring to Fig. 1, the utility model provides a kind of chemiluminescence detector, which can be to sample It is handled, and to treated, sample carries out analysis detection, obtains corresponding testing result, satisfies the use demand.It needs Bright, the specific type of sample to be measured is unrestricted, in some embodiments, sample to be measured include solid sample or Liquid sample.Further liquid sample includes but not limited to blood sample.The chemiluminescence detector of the utility model can So that the addition action of reagent, mixing action and incubation action are carried out in different positions respectively, mutual operation is avoided It interferes, while each operation can also be enable to be carried out at the same time, improve the detection speed of chemiluminescence detector, Jin Erbao Demonstrate,prove detection efficiency.

In the present invention, chemiluminescence detector includes reagent storage means 11, reaction unit 13, dispenser 12, cleaning device 14 and measuring device 15.Reagent storage means 11 are used for storing reagent, can store pattern detection when institute The various reagents needed facilitate the reagent needed for selection, improve the efficiency for drawing reagent.It is understood that reagent storage dress Plurality of reagents can be stored by setting 11, and also there is reagent storage means 11 cold storage function, the reagent for storing low temperature to realize reagent Preservation.Reaction unit 13 for carry reaction vessel 20 and carry out sample-adding this, reagent adding and incubate operation, in this way reaction appearance Sample in device 20 can fully be reacted with reagent, so that sample reaches best reaction condition, the inspection of convenience sample parameter It surveys.Dispenser 12 is used for suction sample or reagent, and sample or reagent are added in corresponding reaction vessel 20 with realizing.Clearly Cleaning device 14 is used to remove the impurity in the reaction vessel 20 after incubating, and measuring device 15 is used for to be measured in reaction vessel 20 Object is detected.

Understanding to sample and each stage name of reagent for convenience, herein to the title of sample and reagent each stage It is described in detail：Sample in reaction vessel is known as mixture after being mixed with reagent, and reaction unit 13 can be in reaction vessel Mixture carries out incubation operation so that sample is fully reacted with reagent, at this point, the substance in reaction vessel is determinand and miscellaneous Matter.Wherein, mixture refers to that the ratio of the substance formed after sample is mixed with reagent and sample and reagent, concentration are unrelated, herein Referred to as mixture.Mixture after reaction is presented in a manner of determinand and impurity in the reaction vessel.Impurity can be inabundant The substance of reaction, or the side reaction product that side reaction generates occurs, can also be that other influences measuring device 15 detects Substance etc., or be above-mentioned at least two composition.Cleaning device 14 removes the impurity in reaction vessel, measuring device Determinand in 15 detection reaction vessels, to obtain the parameters of sample.

It is understood that reaction unit 13 can incubate the sample in reaction vessel 20 with reagent, that is, mixture Operation so that sample is fully reacted and is combined with reagent, and the impurity in reaction vessel 20 then needs to be removed, in order to avoid influence to survey Measure the accuracy that device 15 detects.Therefore, the reaction vessel 20 of reaction unit 13 after incubation, by cleaning device 14 to reaction Impurity in container 20 carries out separation cleaning, to remove the impurity in reaction vessel 20 so that left in reaction vessel 20 to be measured Object；Then, measuring device 15 is again detected the determinand in reaction vessel 20, to obtain the detection parameters of sample.Into one Step ground, chemiluminescence detector further includes grabbing cup device 16, grab cup device 16 for realizing reaction vessel 20 reaction unit 13, It is shifted between cleaning device 14 and measuring device 15, so that reaction vessel 20 at various locations and executes corresponding operation, it is real Existing sample automatically analyzes detection, improves operating efficiency.

At runtime, reaction unit 13 carries reaction vessel 20 to chemiluminescence detector, and dispenser 12 draws sample simultaneously It is transferred in reaction vessel 20, dispenser 12 can also draw reagent in reagent storage means 11 and be transferred to reaction vessel In 20；Then, reaction unit 13 carries out mixing operation to reaction vessel 20 so that the mixture mixing in reaction vessel 20 is equal Even, reaction unit 13 carries out incubation operation to the mixture in reaction vessel 20 after mixing so that sample is abundant with reagent Reaction.It grabs cup device 16 reaction vessel 20 after abundant reaction is transferred in cleaning device 14, be removed by cleaning device 14 Impurity in reaction vessel 20.After the completion of cleaning, grabs cup device 16 and reaction vessel 20 is transferred in measuring device 15 again, pass through Measuring device 15 is detected the determinand in reaction vessel 20, to obtain every detection parameters of sample, meets and uses need It asks.

Specifically, reaction unit 13 include for carry reaction vessel 20 and carry out that reagent adding and mixing operate react outside Disc mechanism 132 and for carrying reaction vessel 20 and carrying out incubating disc mechanism 133 in the reaction of operation, reacts outer disc mechanism 132 It is sheathed on the outside of disc mechanism 133 in reaction and independently runs.The reaction vessel 20 for adding sample is transferred to outside reaction On disc mechanism 132, then, dispenser 12 can hold agent transfer to the reaction for adding sample on outer disc mechanism 132 is reacted It in device 20, is then mixed with the reaction vessel 20 of reagent to adding sample so that mixture is uniformly mixed.After mixing Reaction vessel 20 be transferred in reaction in disc mechanism 133, and incubation operation is carried out to the mixture in reaction vessel 20 so that Sample reaches best reaction condition, and the measuring device 15 of chemiluminescence detector is facilitated to detect sample parameter.Also, reaction is outer The setting coaxial with disc mechanism 133 in reaction of disc mechanism 132, can reduce the volume of reaction disc mechanism, and then reduce complete machine in this way Volume.Certainly, outer disc mechanism 132 is reacted in the other embodiment of the utility model be independently of disc mechanism in reaction 133 settings.Chemiluminescence detector, which also has to incubate, grabs cup mechanism 163, that is, it further includes incubating to grab cup mechanism to grab cup device 16 163, it incubates to grab cup mechanism 163 and correspond to and reacts outer disc mechanism 132 and react the interior setting of disc mechanism 133, be used for reaction vessel 20 It is shifted between disc mechanism 133 in reacting outer disc mechanism 132 and reacting.It should be noted that the reaction external disk of the utility model Mechanism 132 can also carry empty reaction vessel or carrying in other embodiments, and there is the reaction of the solution such as calibration liquid to hold Device.In the present embodiment, it is only illustrated for reacting outer reaction vessel of the carrying of disc mechanism 132 with sample.

Moreover, reagent storage means 11, dispenser 12, cleaning device 14 and measuring device 15 are enclosed set on reaction external disk machine The side of structure 132.In this way, reaction vessel 20 is reacting outer disc mechanism 132, the interior disc mechanism 133 of reaction, cleaning device 14 and is surveying When being shifted between amount device 15, the path of the transfer of reaction vessel 20 can be shortened, improve transfer efficiency；Moreover, dispenser 12 When shifting sample with reagent, moreover it is possible to reduce the transfer path of sample and reagent, improves the transfer efficiency of sample and reagent, into And improve the operational efficiency of chemiluminescence detector.Meanwhile each device of chemiluminescence detector is enclosed set on reaction external disk machine The side of structure 132 is distributed, and the outer disc mechanism 132 of each function module complex reaction of chemiluminescence detector is enabled to close in this way Removing the work office so that chemiluminescence detector it is compact-sized, greatly reduce the machine volume of chemiluminescence detector.

Further, reaction unit 13 further includes buffering disc mechanism 131, and buffering disc mechanism 131 is independently of reaction external disk machine Structure 132 is arranged, and positioned at the side for reacting outer disc mechanism 132.Optionally, buffering disc mechanism 131 also can with react in disc mechanism 133, outer disc mechanism 132 is reacted to be arranged layer by layer.Empty reaction vessel 20 is transferred on buffering disc mechanism 131, then dispensing dress Sample can be transferred in the reaction vessel 20 in 131 overhead of buffering disc mechanism by setting 12.The reaction vessel 20 for adding sample can It is transferred to and reacts on outer disc mechanism 132, and carry out reagent adding, mixing and incubate operation.Moreover, chemiluminescence detector is also Cup mechanism 162 is grabbed with sample, that is, grabs cup device 16 and grabs cup mechanism 162 with sample, sample grabs cup mechanism 162 and corresponds to buffer disc Mechanism 131 and the outer disc mechanism 132 of reaction are arranged, for the reaction vessel 20 buffered on disc mechanism 131 to be transferred to reaction external disk In mechanism 132.After dispenser 12 adds the samples in the reaction vessel 20 for buffering disc mechanism 131, sample grabs cup mechanism 162 The reaction vessel 20 for adding sample can be transferred to and be reacted in outer disc mechanism 132, and continue to hold in reacting outer disc mechanism 132 Row reagent adding, mixing and incubation operate.Specifically, buffering disc mechanism 131 include carrying reaction vessel 20 buffering carrier with And the buffered-display driver structure of driving buffering carrier rotation, buffered-display driver structure are used as power source using motor etc., and by same Walk the transmission of the realizations campaigns such as belt drive structure, driving buffering carrier rotation.

As a kind of embodiment, dispenser 12 includes sample charging mechanism 121 and pipetting device 122.Sample charging mechanism 121 Positioned at the side of buffering disc mechanism 131, for sample to be transferred in the reaction vessel 20 of buffering disc mechanism 131.Chemiluminescence Detector further includes the reaction vessel automatic conveying device 17 for conveying reaction vessel 20；Reaction vessel automatic conveying device 17 Positioned at the side of buffering disc mechanism 131.Sample is transferred in the reaction vessel 20 of buffering disc mechanism 131 by sample charging mechanism 121.Instead It answers container automatic conveying device 17 for conveying reaction vessel 20, to realize the automatic conveying of reaction vessel, improves transfer efficiency. Reaction vessel automatic conveying device 17 is located at the side of buffering disc mechanism 131 with sample charging mechanism 121, in this way, grabbing cup device 16 will Reaction vessel 20 in reaction vessel automatic conveying device 17 is transferred on buffering disc mechanism 131, and sample charging mechanism 121 can be by sample Originally it is transferred in reaction vessel 20, the path for grabbing 16 transfer reaction container 20 of cup device can be reduced in this way, improve reaction vessel The speed of 20 transfers；The speed of sample transfer can also be improved simultaneously, it is to be understood that and then improve chemiluminescence detector Operational efficiency.It is understood that sample charging mechanism 121 is arranged with 17 heteropleural of reaction vessel automatic conveying device, can keep away in this way Exempt from the sample transfer operation of sample charging mechanism 121 and grabs cup device 16 by the reaction vessel 20 in reaction vessel automatic conveying device 17 The process for being transferred to buffering disc mechanism 131 interferes, and ensures the performance of chemiluminescence detector.

Certainly, in the other embodiment of utility model, reaction vessel automatic conveying device 17 can also be replaced, i.e., Reaction vessel automatic conveying device 17 is not used to convey reaction vessel 20, reaction vessel 20 can be placed directly into reaction unit 13 In.Preferably, the reaction vessel 20 that reaction vessel automatic conveying device 17 conveys is usually medical disposable material, certainly, reaction is held Device 20 can also be recovered recycling.Optionally, when reaction vessel 20 reuses, can not also reaction vessel be used to pass automatically Defeated device 17 conveys reaction vessel 20.It is understood that reaction vessel 20 refers to carrying and capable of carrying out pattern detection analysis Consumptive material, such as reaction cup, test tube, sample slide, sample tube.In the present embodiment, reaction vessel 20 refers to reaction cup, reaction Container automatic conveying device 17 usually transmits reaction vessel box, and arranged in column reaction vessel of embarking on journey is carried in reaction vessel box 20.Moreover, the shape of reaction vessel box is unrestricted in principle, can be rectangular, round or other shapes, as long as reaction is held There is ear on device box, reaction vessel automatic conveying device 17 is facilitated to transmit.

Specifically, reaction vessel automatic conveying device 17 includes reaction vessel storing mechanism and reaction vessel hoisting mechanism. Reaction vessel storing mechanism is used for loading and storing multiple reaction vessel boxes, and reaction vessel hoisting mechanism is anti-for storing and being promoted Container is answered, to realize the conveying of reaction vessel 20.Reaction vessel hoisting mechanism is located at the top of reaction vessel storing mechanism, instead Answer container storage mechanism that can convey reaction vessel box to reaction vessel hoisting mechanism, reaction vessel hoisting mechanism can pick up instead Container is answered to be promoted to secondary top layer.It is reacted moreover, reaction vessel storing mechanism can be transmitted respectively with reaction vessel hoisting mechanism Container.Reaction vessel hoisting mechanism and reaction vessel storing mechanism can independent operating, and parallel transmission reaction vessel respectively 20.In this way, after the reaction vessel box in reaction vessel storing mechanism is partly or entirely transported to reaction vessel hoisting mechanism, it can To load reaction vessel box into reaction vessel storing mechanism so that reaction vessel hoisting mechanism continuance lifting reaction vessel box, It realizes the continuous load of reaction vessel box, improves whole efficiency；Reaction vessel hoisting mechanism transmission reaction vessel is not interfered with also Box.Moreover, reaction vessel storing mechanism can also be docked and detach with reaction vessel hoisting mechanism, facilitates and stored to reaction vessel Reaction vessel box is loaded in mechanism.

Further, the reaction vessel box in reaction vessel storing mechanism is arranged using overlapped way, multiple reactions Container layering is supported in reaction vessel hoisting mechanism.The massive store of reaction vessel box can be realized in this way, maximized Reduction occupy instrument placement position so that reaction vessel automatic conveying device 17 it is compact-sized, then reduce chemistry hair The overall dimensions of optical detector.Optionally, overlapped way storage reaction container can also be used in reaction vessel hoisting mechanism.Specifically , reaction vessel storing mechanism includes the storage holding unit for storing transmission structure and being set on storage transmission structure, storage support The reaction vessel box that multiple stackings are placed is carried in the portion of rising, and drives storage holding unit to move up and down by depositing transmission structure, it is real The promotion of existing reaction vessel box.Optionally, storage transmission structure can using synchronous belt wheel structure and/or gear ＆ rack structure etc. The structure for realizing elevating movement stores the power source of transmission structure using motor etc., and reaction vessel storing mechanism also uses frame Structure encloses the memory space for being set as reaction vessel box, is not described in detail one by one herein.Reaction vessel hoisting mechanism includes promoting transmission knot Structure and it is set to the multipair promotion holding unit being oppositely arranged promoted on transmission structure, carrying one is instead in each pair of promotions holding unit Container is answered, drives promotion holding unit to move up and down by promoting defeated structure, realizes the promotion of reaction vessel box.Optionally, The structure of rotary and lifting movement can be realized using synchronous belt wheel structure etc. by promoting transmission structure, store the power source of transmission structure Using motor etc. and by the transmission of the realizations campaigns such as gear, synchronous band structure, reaction vessel hoisting mechanism also uses frame knot Structure encloses the room for promotion for being set as reaction vessel box, is not described in detail one by one herein.

Chemiluminescence detector grabs cup device 16 in 17 transmission of predeterminated position crawl reaction vessel automatic conveying device Reaction vessel 20 in reaction vessel box, specially：To predeterminated position transmit reaction vessel box when, reaction vessel hoisting mechanism to The reaction vessel box of secondary top layer is promoted the top layer to reaction vessel box hoisting mechanism by upper one layer of movement, and reaction vessel passes automatically The reaction vessel box of reaction vessel hoisting mechanism top layer is delivered to predeterminated position by defeated device 17 again.Exist in this way, grabbing cup device 16 Predeterminated position captures the reaction vessel 20 in reaction vessel box and is transferred in reaction unit 13.

Optionally, reaction vessel automatic conveying device 17 further includes delivery device.Delivery device is set to reaction vessel and carries It rises in mechanism, the reaction vessel box of reaction vessel hoisting mechanism top layer can be pushed to predeterminated position by delivery device.Pusher Structure is released reaction vessel box using the structure of the linear movement outputs such as sliding-rail sliding structure or synchronous band structure, and uses motor Deng as power source.

Again optionally, reaction vessel automatic conveying device 17 further includes reaction vessel recovering mechanism.Reaction vessel recycling machine Structure is located at the lower section of predeterminated position, and reaction vessel recovering mechanism can recycle predetermined position and use the reaction vessel box completed. Reaction vessel recovering mechanism is for realizing that the recycling of reaction vessel box and storage, the reaction vessel box after use can be conveyed Into reaction vessel recovering mechanism, the recycling and storage of reaction vessel box are realized.When stored in reaction vessel recovering mechanism it is full or After nonresident portion reaction vessel box, it can be taken out from the lower section of reaction vessel recovering mechanism, can realize reaction vessel box in this way Continuous recycling, it is easy to use.Reaction vessel recovering mechanism includes time recycled transmission structure and be set on recycling transmission structure It admits a child into a nursery school plate, recycling supporting plate can drive recycling supporting plate to move up and down for carrying reaction vessel box, recycling transmission structure, in turn Realize the recycling and storage of reaction vessel box.Preferably, recycling transmission structure is using energy such as gear ＆ rack structure, synchronous band structures It enough realizes the structure of elevating movement, and power source is used as using motor etc..

Again optionally, reaction vessel automatic conveying device 17 further includes reaction vessel positioning blanking mechanism, and reaction vessel is fixed Position blanking mechanism is set to the top of reaction vessel recovering mechanism.Reaction vessel box on reaction vessel hoisting mechanism can be pushed away Mechanism is sent to push on reaction vessel positioning blanking mechanism.It grabs cup device 16 and captures reaction on reaction vessel positioning blanking mechanism Reaction vessel 20 in container, and be transferred in reaction unit 13 and carry out the operations such as sample-adding sheet, reagent.It is anti-after the completion of use It answers container 20 to position blanking mechanism by reaction vessel to fall in reaction vessel recovering mechanism.It is understood that reaction is held Device positioning blanking mechanism can facilitate the positioning of reaction vessel box simultaneously so that the position of reaction vessel box is fixed always, convenient Grab the reaction vessel 20 during cup device 16 takes out reaction vessel box at 20 blanking mechanism of reaction vessel.It is anti-in reaction vessel box After answering container 20 to be all removed, reaction vessel box will be recovered, and be fallen at this point, reaction vessel box can be positioned by reaction vessel Material mechanism falls and is stored in reaction vessel recovering mechanism, facilitates the recycling of reaction vessel box.Specifically, reaction vessel positions Blanking mechanism is opened or is closed the channel that falls of reaction vessel box by slide switch door, and when opening falls channel, reaction is held Device box is fallen in reaction vessel recovering mechanism；When closing falls channel, reaction vessel box can be located at reaction vessel positioning and fall Expect in mechanism；Also, reaction vessel, which positions blanking mechanism, has positioning element, and delivery device is by reaction vessel box from reaction vessel When the top layer of hoisting mechanism is pushed on reaction vessel positioning blanking mechanism, reaction vessel box can be abutted with positioning element, be protected Reaction vessel box accurate positioning is demonstrate,proved, the crawl of cup device 16 is conveniently grabbed.

Optionally, reaction vessel recovering mechanism includes the first reaction vessel recovering mechanism and is recycled positioned at the first reaction vessel The second reaction vessel recovering mechanism below mechanism, the second reaction vessel recovering mechanism can be with the first reaction vessel recovering mechanisms pair It connects and detaches.Reaction vessel automatic conveying device 17 further includes drawer mechanism, reaction vessel storing mechanism and the second reaction vessel Recovering mechanism is set in drawer mechanism, and drawer mechanism can drive reaction vessel storing mechanism and the second reaction vessel to recycle Mechanism is extracted out and is pushed into relative to chemiluminescence detector.When drawer mechanism is extracted out, reaction vessel storing mechanism and reaction vessel Hoisting mechanism detaches, and the second reaction vessel recovering mechanism is detached with the first reaction vessel recovering mechanism, can hold at this time to reaction Reaction vessel box is loaded in device storing mechanism, can take out the reaction vessel box after use in the second reaction vessel recovering mechanism. Drawer mechanism be pushed into when, reaction vessel storing mechanism is docked with reaction vessel hoisting mechanism, the second reaction vessel recovering mechanism and First reaction vessel recovering mechanism docks, and reaction vessel storing mechanism can transmit reaction vessel to reaction vessel hoisting mechanism Box, the second reaction vessel recovering mechanism can continue to recycling reaction vessel box.Specifically, drawer mechanism can be slided along sliding rail, And extraction and the push-in of drawer mechanism can be automatically controlled by chemiluminescence detector；Manual type can also be used by drawer mechanism Extraction and push-in.

Further, chemiluminescence detector also there is new cup to grab cup mechanism 161, that is, grabs cup device 16 and grab cup including new cup Mechanism 161.New cup grabs cup mechanism 161 and corresponds to reaction vessel automatic conveying device 17 and the buffering setting of disc mechanism 131, and being used for will be anti- The reaction vessel 20 in container automatic conveying device 17 is answered to be transferred in buffering disc mechanism 131.It is understood that new cup grabs cup Mechanism 161 can position the reaction vessel 20 on blanking mechanism in crawl reaction vessel box in reaction vessel, and be transferred to buffering In disc mechanism 131, to carry out the operations such as sample-adding sheet, reagent adding.

Moreover, pipetting device 122, which corresponds to, reacts outer disc mechanism 132 and the setting of reagent storing mechanism 111, pipetting device 122 It will be in the agent transfer in reagent storing mechanism 111 to the reaction vessel 20 for reacting outer disc mechanism 132.Reagent storage, which loads, includes Agent bin ontology and agent bin structure of controlling temperature, agent bin ontology are used for storing reagent, and agent bin structure of controlling temperature is for controlling reagent The intrinsic environment temperature in storehouse.It arranges in column moreover, reagent is embarked on journey by reagent storage container in agent bin ontology, liquid relief machine Structure 122 is moved relative to agent bin ontology and is moved up and down on vertical plane in the horizontal plane, realizes the absorption of reagent.When So, in the other embodiment of the utility model, reagent disc carrying reagent can also be used in reagent storing mechanism 111, passes through examination Agent carrier drives reagent to turn to preset station, and pipetting device 122 draws reagent in default station.

Specifically, agent bin structure of controlling temperature is set to the lower section of agent bin ontology, agent bin structure of controlling temperature is tried for adjusting The intrinsic environment temperature in agent storehouse, so that the intrinsic environment temperature position of agent bin is between 2 DEG C -8 DEG C；Agent bin temperature control knot Structure includes cooling assembly and heat dissipation wind channel, and heat dissipation wind channel includes air duct box and wind turbine, and air duct box is set to the middle part of heat dissipation wind channel, There is cooling assembly radiator, radiator to be set in the inner cavity of air duct box, and wind turbine is set to air duct box edge in heat dissipation wind channel The downstream of gas flow direction.The swabbing action of wind turbine can be utilized to accelerate the flowing of air in heat dissipation wind channel in this way, make air-flow It is more stable；And radiator forced heat-exchanging in closed cavity, further improve heat exchange efficiency.

Pipetting device 122 includes X-axis moving parts, Y-axis moving parts, Z axis moving parts and liquid relief component, X-axis movement Component, Y-axis moving parts and Z axis moving parts drive liquid relief component to do the movement of X-direction, the movement of Y direction and Z axis The movement in direction, so that liquid relief component, which can move in reagent storage means 11, draws reagent, moreover it is possible to it is outer to move to reaction Reagent is added at disc mechanism 132.It is understood that X-axis moving parts, Y-axis moving parts and Z axis moving parts are all made of together The transmission of the realizations campaigns such as band structure is walked, and using motor as power source.Moreover, having reagent needle in liquid relief component, pass through Reagent needle is drawn or discharge reagent.Also, liquid relief component also uses the structures such as syringe or plunger pump to realize quantitative draw Reagent.Certainly, in the other embodiment of the utility model, pipetting device 122 can also be used rotating manner and make liquid relief group Part draws reagent or addition reagent, at this point, pipetting device 122 is rotated using synchronous belt structure control liquid relief component.Further Ground, chemiluminescence detector further include the reagent needle cleaning component of the reagent needle for cleaning pipetting device 122, the cleaning of reagent needle Component is set in reagent storing mechanism 111.After pipetting device 122 shifts a reagent, component is cleaned by reagent needle and is carried out Cleaning, to avoid cross contamination.

Preferably, the reagent storage means 11 of the utility model are dispensed using including at least two reagent storing mechanisms 111 Device 12 includes sample charging mechanism 121 and at least two pipetting devices 122.In this way, each pipetting device 122 corresponds to an examination respectively Being transferred in corresponding reagent storing mechanism 111 is reacted outer disc mechanism 132 and corresponded to by agent storing mechanism 111, pipetting device 122 Reaction vessel 20 in.At runtime, at least two pipetting devices 122 can respectively deposit corresponding reagent chemiluminescence detector Transfering reagent in the reaction vessel 20 of reagent disc mechanism 132 to outside reaction in mechanism 111 is stored up, can be at least two liquid relief machines Structure 122 will in agent transfer at least two reaction vessels 20, can also be that at least two pipetting devices 122 respectively will examination respectively Agent is added in the same reaction vessel 20, can also be that at least two pipetting devices 122 add reagent on several times or once Into reaction vessel 20.In such manner, it is possible to which so that reagent adding operation at least twice is carried out at the same time or alternately, shortens reagent adding Time, greatly improve the operational efficiency of chemiluminescence detector.

Moreover, because different samples need to add different reagents in reaction, existed by least two pipetting devices 122 Addition reagent disclosure satisfy that the use demand of different samples on the outer disc mechanism 132 of reaction.Each sample can be according to actual use need Selection one or both of which pipetting device 122 is asked to be added reagent operation.Pipetting device 122 can be in corresponding examination Reagent is drawn in agent storing mechanism 111, and is moved to and is reacted the corresponding position of outer disc mechanism 132 and added into reaction vessel 20 Reagent.It is understood that due to pipetting device 122 reagent storing mechanism 111 with react the movement between outer disc mechanism 132 The regular hour is needed, i.e., pipetting device 122 is moved at reagent storing mechanism 111 after absorption reagent, then is moved back to outside reaction Disc mechanism 132 adds operating time and the mixing operating time for the time that reagent needs being respectively greater than transfer reaction container 20, The cooperation operation of at least two pipetting devices 122, which is arranged, can ensure to complete to draw reagent in one cycle and add reagent behaviour Make, and reagent adding operation is executed to reaction vessel 20.Here when a cycle refers to that the outer disc mechanism of reaction 132 moves primary Between.Each step such as reagent adding, mixing on outer disc mechanism 132 are reacted in this way, take cup that can be carried out at the same time with the operations such as cup are put, energy It is enough to shorten the operating time for reacting outer disc mechanism 132, to improve the treatment effeciency for reacting outer disc mechanism 132, and then improve complete machine The speed of service.Optionally, at least two reagent storing mechanisms 111 can be structure as a whole, at least two pipetting devices, 122 energy It is enough that required reagent is selected in reagent storing mechanism 111, and be added in reaction vessel 20 in corresponding reagent adding station. In the present embodiment, the quantity of reagent storing mechanism 111 is two, correspondingly, the quantity of pipetting device 122 is also two.

In addition, can be to reagent using double reagent storehouse i.e. two reagent storing mechanism 111 and two cooperations of pipetting device 122 Addition and type selection it is more flexible, one species or different types of reagent can be added in two pipetting devices 122, And/or two pipetting devices 122 also can several times or single adds reagent into reaction vessel.When single adds reagent, i.e., After two pipetting devices 122 often add reagent successively, needs to again move into and draw examination at corresponding reagent storing mechanism 111 Agent.When adding reagent several times, after two pipetting devices 122 draw a reagent, it can divide and be added to same reaction several times In container or multiple reaction vessels, the time that pipetting device 122 returns to absorption reagent consumption again can be reduced in this way, at raising Manage efficiency.Hold moreover, reagent of the same race or reagent not of the same race can also be respectively added to the same reaction by two pipetting devices 122 In device or different reaction vessels.In this way, operating personnel can be according to the operating condition of complete machine, to two pipetting devices 122 Transfering reagent is adjusted, to adapt to different use demands.

Referring to Fig. 1 to Fig. 8, as a kind of embodiment, it includes that rotatable reaction external disk is held to react outer disc mechanism 132 Load plate 1321, reaction external disk carrier 1321 can accommodate the reaction vessel 20 for adding sample, and reaction vessel 20 can be made to exist The operation of completion reagent adding and mixing operation on the outer disc mechanism 132 of reaction.Disc mechanism 133 includes rotatable reaction inner disc in reaction Carrier 1331, reaction inner disc carrier 1331 can accommodate the reaction vessel 20 shifted from reaction external disk carrier 1321, And reaction vessel 20 can be made to carry out incubation operation on disc mechanism 133 in reaction.After the completion of adding sample, disc mechanism is buffered The reaction vessel 20 with sample is transferred on reaction external disk carrier 1321 in 131, and pipetting device 122 is held to reaction external disk Reagent is added in load plate 1321 in reaction vessel 20 with sample, after the completion of adding reagent, to reacting external disk carrier 1321 In reaction vessel 20 carry out mixing operation so that mixture be uniformly mixed；After the completion of mixing, mixture after mixing anti- It answers container 20 to be transferred in reaction inner disc carrier 1331, and incubation operation is carried out in reacting inner disc carrier 1331, temperature After the completion of educating operation, the reaction vessel 20 in reaction inner disc carrier 1331 is diverted, to carry out next step operation.

Further, react outer disc mechanism 132 further include react external disk mounting structure 1322 and with react external disk carrier The 1321 reaction external disk driving structures 1323 being sequentially connected, reaction external disk carrier 1321 is in annular shape.The outer dish driving knot of reaction 1323 drive response external disk carrier 1321 of structure is rotated relative to reaction external disk mounting structure 1322.React external disk mounting structure 1322 for playing carrying installation, and reaction external disk driving structure 1323 is installed on reaction external disk mounting structure 1322, instead External disk carrier 1321 is answered to be installed in reaction external disk driving structure 1323,1323 drive response external disk of reaction external disk driving structure Carrier 1321 rotates so that reaction external disk carrier 1321 turns to corresponding position, and execute corresponding operation as plus cup, Reagent adding, mixing take the operations such as cup.

Moreover, opening up multiple putting holes 13211 on reaction external disk carrier 1321, the reaction vessel 20 in carrier is buffered It can be transferred to respectively in multiple putting holes 13211 of reaction external disk carrier 1321.Putting hole 13211 is added for placing The reaction vessel 20 of complete sample buffers the reaction vessel 20 in the loading hole of carrier and is transferred to reaction external disk carrier 1321 Putting hole 13211 in.It is understood that putting hole 13211 can be in axial direction perforation reaction external disk carrier 1321 through-hole, or in axial direction it is set to the blind hole of reaction external disk carrier 1321.Further, multiple putting holes 13211 are uniformly distributed along the circumferential direction for reacting external disk carrier 1321.It can facilitate in this way on reaction external disk carrier 1321 The turned position of reaction vessel 20 monitors so that the putting hole 13211 on reaction external disk carrier 1321 turns to corresponding position It sets, facilitates the corresponding operation of execution.Also, in the present embodiment, multiple putting holes 13211 are set to reaction external disk around a circle and hold In the circumferential direction of load plate 1321.

Still further, the outer disc mechanism 132 of reaction is with multiple reaction stations, including add a glass station, reagent adding station with And it incubates and takes a glass station；Disc mechanism 133, which has to incubate, in reaction puts a glass station.Buffering disc mechanism 131 corresponds to plus cup station is set It sets, the reaction vessel 20 buffered in disc mechanism 131 is adding a glass station to be transferred in the outer disc mechanism of reaction 132.It can contract in this way The punched disc mechanism 131 of postponing of short reaction container 20 is transferred to the path reacted on outer disc mechanism 132, the transfer of raising reaction vessel 20 Efficiency.Pipetting device 122 and reagent storage means 11 correspond to the setting of reagent adding station, and pipetting device 122 is by reagent storage means Reagent in 11 is transferred in reagent adding station in the reaction vessel 20 for reacting outer disc mechanism 132.Liquid relief machine can be facilitated in this way Reagent is transferred to from reagent storage means 11 in the reaction vessel 20 for reacting outer disc mechanism 132 by structure 122, shortens the transfer of reagent Agent transfer efficiency is improved in path.Incubation takes glass station to put a glass station with incubation and is correspondingly arranged, and reacts in outer disc mechanism 132 Reaction vessel 20 takes a glass station to be removed and put a glass station in incubation and is transferred in reaction in disc mechanism 133 in incubation.In this way Reaction vessel 20 can be shortened and be transferred to the path reacted on interior disc mechanism 133 from outer disc mechanism 132 is reacted, improve reaction vessel 20 transfer efficiency.Moreover, also there is chemiluminescence detector sample, which to grab cup mechanism 162 and incubate, grabs cup mechanism 163, that is, grab cup Device 16 further include sample grab cup mechanism 162 and incubate grab cup mechanism 163.Sample grabs cup mechanism 162 and corresponds to buffering disc mechanism 131 And the outer disc mechanism of reaction 132 plus the setting of cup station, for 20 turns of the reaction vessel of sample will to have been added in buffering disc mechanism 131 It moves on to and reacts in outer disc mechanism 132.It incubates to grab cup mechanism 163 and correspond to and reacts the incubation of outer disc mechanism 132 and take glass station and reaction The incubation of interior disc mechanism 133 puts a glass station setting, for reacting outer disc mechanism 132 and reacting interior disc mechanism reaction vessel 20 It is shifted between 133.That is, the disc mechanism in buffering disc mechanism 131, the outer disc mechanism 132 of reaction and reaction of reaction vessel 20 Transfer between 133 is to grab cup mechanism 162 by sample and incubate to grab the realization of cup mechanism 163, improves turning for reaction vessel 20 Move speed.

Optionally, reaction station further includes mixing station；Chemiluminescence detector further includes evenly mixing device, and evenly mixing device is set It is placed in and reacts on outer disc mechanism 132, and corresponding mixing station setting, for reacting the reaction vessel 20 in outer disc mechanism 132 Carry out mixing operation.Evenly mixing device can add the progress of reaction vessel 20 of sample and reagent to reacting in outer disc mechanism 132 Mixing operates, so that sample is sufficiently mixed with reagent, that is, mixture, then carries out incubation operation again.It is outer that evenly mixing device is located at reaction On disc mechanism 132, evenly mixing device can be facilitated to carry out the mixture reacted in the reaction vessel 20 in outer disc mechanism 132 in this way Mixing operates.Specifically, evenly mixing device includes elevating movement mechanism and mixing mechanism, mixing mechanism is set to elevating movement mechanism On.Elevating movement mechanism can be such that mixing mechanism moves up and down so that mixing mechanism can be with 20 short transverse of reaction vessel Seamed edge be in contact, subsequent mixing mechanism can drive reaction vessel 20 movement so that reaction vessel 20 is rocked at high speed, ensure Mixture is uniformly mixed.It is understood that elevating movement mechanism is that can carry out the rail structure of elevating movement and/or same Band structure etc. is walked, mixing mechanism is that can realize the structure of eccentric rotary, also, elevating movement mechanism is used with mixing mechanism Motor is as power source.Certainly, in the other embodiment of the utility model, the form of stirring rod can also be used in evenly mixing device To the mixture stirring in reaction vessel 20, realize that mixture is uniformly mixed.

Specifically, 1323 drive response external disk carrier 1321 of reaction external disk driving structure drives putting hole 13211 to move To cup station is added, sample, which grabs cup mechanism 162 and can be transferred to the reaction vessel 20 buffered on disc mechanism 131, adds cup station to correspond to Putting hole 13211 in.1323 drive response external disk carrier 1321 of external disk driving structure is reacted to drive in putting hole 13211 Reaction vessel 20 turns at reagent adding station, and pipetting device 122 adds reagent on corresponding placement at reagent adding station In the reaction vessel 20 in hole 13211；It reacts 1323 drive response external disk carrier 1321 of external disk driving structure and drives putting hole Reaction vessel 20 in 13211 turns at mixing station, and evenly mixing device corresponds to the reaction of putting hole 13211 at mixing station Mixture in container 20 is uniformly mixed.It reacts 1323 drive response external disk carrier 1321 of external disk driving structure and drives putting hole Reaction vessel 20 in 13211 moves to incubation and takes at glass station, and incubation grabs cup mechanism 163 and takes glass station is corresponding to put incubation The reaction vessel 20 in hole 13211 is set to be transferred in reaction in disc mechanism 133.Preferably, the quantity of reagent adding station is two, Two reagent storing mechanisms 111 are corresponded to respectively and two pipetting devices 122 are arranged, and are improved the efficiency of agent transfer, are then carried The speed of service of high instrument.Two reagent adding stations correspond to two reagent storing mechanisms 111 and are arranged respectively, and pipetting device 122 exists Reagent is drawn in corresponding reagent storing mechanism 111, and is added reagent in reaction vessel 20 at corresponding reagent adding station.

Still further, it further includes that a glass work is put in cleaning that there is disc mechanism 133 cleaning, which to take a glass station, reaction station, in reaction Position, cleaning are put glass station and are located at plus between cup station and reagent adding station.Cleaning device 14 respectively corresponding cleaning take glass station and A glass station setting is put in cleaning, and the reaction vessel 20 reacted in interior disc mechanism 133 takes a glass station to be removed and is transferred to clear in cleaning In cleaning device 14, reaction vessel 20 in cleaning device 14 is put a glass station in cleaning and is transferred in the outer disc mechanism of reaction 132.Instead Sample after the completion of answering interior disc mechanism 133 to incubate, which can be cleaned grabbing cup mechanism 164 being transferred in cleaning device 14, carries out cleaning behaviour Make, to wash the impurity in reaction vessel 20, is reacted since part sample also needs to secondary addition reagent, at this point, clearly It washes and grabs cup mechanism 164 and can the reaction vessel 20 after the completion of being cleaned in cleaning device 14 be put a glass station in cleaning and be transferred to reaction In external disk carrier 1321.Also, sample after being incubated in disc mechanism 133 in reaction needs directly to carry out secondary or even more When secondary reagent adding operation, that is, the reaction vessel 20 after incubating just carries out secondary or multiple reagent adding without the cleaning of cleaning device 14 Operation, at this point, cup mechanism 164 is grabbed in cleaning to put cup in cleaning by the reaction vessel 20 after being incubated in disc mechanism in reaction 133 Station, which is transferred to, to react in outer disc mechanism 133, and the subsequent process of subsequent process and the operation of a reagent adding is identical, herein It does not repeat one by one.

Cleaning device 14 is used to remove the impurity in reaction vessel 20, to be detected when ensureing that measuring device 15 detects determinand As a result accuracy.Specifically, cleaning device 14 includes cleaning turntable, cleaning needle assemblies and adsorption piece.Multiple reaction vessels 20 It is evenly spaced to be carried on the periphery of cleaning turntable.The side in the revolution track of reaction vessel 20 is arranged in adsorption piece.Cleaning Turntable rotates and reaction vessel 20 is driven to do revolution motion around the central axis of cleaning turntable, to be measured under the action of adsorption piece Object can be attracted on the side wall of reaction vessel 20.When cleaning needle assemblies are cleaned, cleaning needle assemblies can inject clearly Washing lotion carries out separation cleaning by cleaning solution to the mixture in reaction vessel 20, and after the completion of cleaning, cleaning needle assemblies can be inhaled The attached waste liquid by reaction vessel 20 is discharged.

It is understood that the quantity of cleaning needle assemblies can be one or more groups of, with to the impurity in reaction vessel 20 Once cleaning is carried out, cleaned twice, cleaned even more be cleaned multiple times three times, the impurity in reaction vessel 20 is carried out at least once After cleaning, finally waste liquid is discharged by cleaning needle assemblies, determinand is left and measures or carry out secondary reagent adding operation.And And adsorption piece adsorbs determinand using such as magnet magnetic part, cleans needle assemblies and cleaning turntable using motor as power Source, and using the transmission of the realizations campaign such as gear transmission structure and/or toothed belt transmission structure.

Moreover, cleaning device 14 is located at the side for reacting outer disc mechanism 132.Reaction vessel 20 react outer disc mechanism 132, When being shifted between disc mechanism 133 and cleaning device 14 in reaction, the path of the transfer of reaction vessel 20 can be reduced.Chemiluminescence is examined Surveying instrument also there is cleaning to grab cup mechanism 164, that is, it further includes that cup mechanism 164 is grabbed in cleaning to grab cup device 16, and it is right that cup mechanism 164 is grabbed in cleaning Cleaning device 14 and the outer disc mechanism 132 of reaction is answered to be arranged, for reaction vessel 20 to be reacted outer disc mechanism 132, reaction inner disc It is shifted between mechanism 133 and cleaning device 14.That is, cleaning grab cup mechanism 164 can be by 133 medium temperature of disc mechanism in reaction Reaction vessel 20 after the completion of educating is transferred on the cleaning turntable of cleaning device 14；Cup mechanism 164 is grabbed in cleaning will clean It needs the reaction vessel 20 for adding reagent to be again transferred to after the completion to react in outer disc mechanism 132.

It is understood that reaction external disk carrier 1321 drives reaction vessel 20 thereon to rotate corresponding station, make It obtains reaction vessel 20 and is performed corresponding operation in corresponding station, as reagent adding, mixing are operated with cup is taken；When reaction external disk Carrier 1321 turns to plus when cup station, sample grab cup mechanism 162 reaction vessel 20 is transferred to from buffering carrier it is anti- It answers in external disk carrier 1321.Two reagent adding stations are the first reagent adding station and the second reagent adding station.Further, Add a glass station, cleaning to put a glass station, the first reagent adding station, the second reagent adding station, mixing station and incubation and takes a glass station It sequentially arranges relative to reaction external disk carrier 1321.Illustrate to react external disk carrier with the running orbit of a reaction vessel 20 132 operation：Sample grab cup mechanism 162 add at glass station by the reaction vessel 20 for adding sample be placed into reaction external disk carrying In disk 1321；Then, reaction external disk carrier 1321 drives reaction vessel 20 to move to the first reagent adding work from glass station from adding With at the second reagent adding station, two pipetting devices 122 are corresponding at the second reagent adding station in the first reagent adding station for position It adds reagent in reaction vessel 20；After the completion of adding reagent, reaction external disk carrier 1321 drives reaction vessel 20 from the It is moved at mixing station at two reagent adding stations, evenly mixing device mixes the mixture in reaction vessel 20 at mixing station Uniformly；After the completion of mixing, reaction external disk carrier 1321 drives reaction vessel 20 to move to incubation from mixing station and takes a glass station Place, incubation, which is grabbed cup mechanism 163 and taken in incubation, takes out reaction vessel 20 at glass station, and is transferred to reaction inner disc carrier 1331 In；Then, reaction external disk carrier 1321, which returns, adds cup station, so moves in circles, realizes continuous operation.

It should be noted that chemiluminescence detector in actual moving process, reacts outer 132 continuous operation of disc mechanism, I.e. reaction external disk carrier 1321 turns to adjacent work from a station after reaction external disk carrier 1321 runs a cycle Position, while adding glass station to add reaction vessel 20 to reaction external disk carrier 1321, pipetting device 122 is in reagent adding work The mixture of reaction vessel 20 is uniformly mixed by position transfering reagent, evenly mixing device into reaction vessel 20 in mixing station, simultaneously Incubation grabs cup mechanism 163 and takes glass station that reaction vessel 20 is transferred in reaction inner disc carrier 1331 in incubation.That is, It reacts after external disk carrier 1321 rotates a cycle, be performed simultaneously in corresponding station plus cup, reagent adding, mixing and take cup Operation.

Optionally, reaction external disk carrier 1321 also has buffer station, buffer station relative to chemiluminescence detector Between two reaction stations of arbitrary neighborhood, buffer station can make adjacent two react station and adjacent reaction work Position is equal with the spacing between buffer station.It is understood that buffer station is waiting station, reaction external disk carrier 1321 It moves at buffer station, any operation is not carried out, can be that pending corresponding operating contributes the operating time in this way.

In the present embodiment, buffer station includes the first buffer station, the second buffer station and third buffer station, and adds cup Station, the first buffer station, cleaning are put a glass station, the second buffer station, the first reagent adding station, the second reagent adding station, are mixed Even station, incubation take the circumferential direction of glass station and third buffer station in the direction of the clock along reaction external disk carrier 1321 Equidistantly it is arranged.1323 drive response external disk carrier 1321 of reaction external disk driving structure moves to above-mentioned reaction work respectively Position and buffer station, and execute corresponding operation.It should be noted that reaction external disk driving structure 1323 is per drive response external disk Carrier 1321 rotates once, and reaction external disk carrier 1321 is around 1/9 circle of its center of circle rotation so that reaction external disk carrier 1321 On reaction vessel 20 can correspond to the setting of nine stations respectively, and the device for passing through corresponding station executes corresponding operation.Respectively After station is using above-mentioned setting and coordinating corresponding operation structure, the work of reaction external disk carrier 1321 can be effectively improved Efficiency so that reaction external disk carrier 1321 such as buffers carrier, pipetting device 122 with other function modules, reacts inner disc holds Process flow between load plate 1331 is more smoothly, improves the operational efficiency of chemiluminescence detector.

It should be noted that new, cup grabs cup mechanism 161, sample grabs cup mechanism 162, incubates and grabs cup mechanism 163, cleans and grab cup Mechanism 164, measurement grab cup mechanism 165 may be used grab a glass drive component, grab glass control assembly and grab the realizations such as glass arm component it is anti- Answer the crawl and transfer of container 20.It is understood that grabbing glass control assembly may be used general control system such as controller Etc., it grabs a glass drive component and driving motor mate gear transmission component, V belt translation component or chain kit etc. may be used Realize the motion control for grabbing glass arm component, so as to grab a glass movement for arm component carry out level and vertical direction, a glass arm group is grabbed in guarantee Part moves in place and captures transfer reaction container 20.Moreover, the end for grabbing glass arm component has handgrip, is captured and reacted by handgrip Container 20.

As a kind of embodiment, reaction external disk mounting structure 1322 includes reaction external disk mounting base 13221 and uses In the reaction external disk support column 13222 of support reaction external disk mounting base 13221.Reacting external disk support column 13222 can will be anti- External disk mounting base 13221 is answered to be supported on the table top of chemiluminescence detector.Preferably, in the present embodiment, reacting external disk Mounting structure 1322 is mounted in reaction on disc mechanism 133, and reacts external disk mounting base 13221 by reacting external disk support column 13222 are supported in reaction on the reaction inner disc mounting structure 1332 of disc mechanism 133.Reaction external disk mounting base 13221, which rises, to be held The effect of support is carried, reaction external disk driving structure 1323 is installed on reaction external disk mounting base 13221.Optionally, reaction is outer Reaction external disk mounting hole 13223 is opened up on disk mounting base 13221, reaction external disk support column 13222 is installed on reaction external disk peace It fills in hole 13223, realizes that reaction external disk mounting base 13221 is supported in reaction inner disc installation by reaction external disk support column 13222 In structure 1332.

It includes reacting outer disk-drive motor 13231 and reaction external disk transmission component 13232 to react external disk driving structure 1323, Outer disk-drive motor 13231 is reacted to be fixed on reaction external disk mounting base 13221.External disk transmission component 13232 is reacted to be driven Connection reacts the output end of outer disk-drive motor 13231 and reacts external disk carrier 1321.The outer disk-drive motor 13231 of reaction drives Dynamic reaction external disk transmission component 13232 drives reaction external disk carrier 1321 to rotate, so that on reaction external disk carrier 1321 Each putting hole 13211 moves to each station, and executes corresponding operation.Preferably, reaction external disk transmission component 13232 wraps Reaction external disk driving wheel 132321 and reaction external disk synchronous belt 132322 are included, it is outer that reaction external disk driving wheel 132321 is installed on reaction On the output end of disk-drive motor 13231, reaction external disk synchronous belt 132322 is sheathed on reaction external disk driving wheel 132321 and anti- It answers on external disk carrier 1321.Outer 13231 drive response external disk driving wheel 132321 of the disk-drive motor rotation of reaction, reacts external disk Driving wheel 132321 drives reaction external disk carrier 1321 to rotate by reacting external disk synchronous belt 132322, so that reaction external disk Carrier 1321 moves in a circle, and is moved to for realizing putting hole 13211 and adds cup station, reagent adding station, mixing station, temperature It educates and the execution such as glass station is taken to operate accordingly.Moreover, teeth portion is arranged on the outer wall of reaction external disk carrier 1321, by teeth portion with It reacts external disk synchronous belt 132322 to coordinate, avoids reaction external disk synchronous belt 132322 from skidding, ensure reliable transmission.Certainly, at this In the other embodiment of utility model, reaction external disk transmission component 13232 can also be gear transmission structure, sprocket drive structure Or other can realize the drive mechanism of 1321 rotation of reaction external disk carrier.

Optionally, it further includes guide and limit structure 1324 to react outer disc mechanism 132, and guide and limit structure 1324 is set to instead It answers on external disk mounting base 13221, guide and limit structure 1324 can carry out the rotary motion for reacting external disk carrier 1321 It is oriented to and limits.Specifically, guide and limit structure 1324 includes guide and limit guide rail 13242 and rolling support 13241, it is oriented to Limit guide rail 13242 reaction external disk carrier 1321 and guide and limit guide rail 13242 and reacts external disk mounting base in annular shape 13221 stack gradually, and react external disk carrier 1321 and be fixed on guide and limit guide rail 13242, guide and limit guide rail 13242 Can relative to react external disk mounting base 13221 rotate.Rolling support 13241 is set to reaction external disk mounting base 13221 On, and positioned at the outside of reaction external disk carrier 1321, rolling support 13241 has sliding slot, 13242 energy of guide and limit guide rail Enough be installed in the sliding slot of rolling support 13241, rolling support 13241 can support guide limit guide rail 13242, and lead It can be slided to limit guide rail 13242 along the sliding slot of rolling support 13241 so that rolling support 13241 can play Limit and the effect being oriented to.Further, the quantity of rolling support 13241 is at least three, at least three rolling supports 13241 are distributed around reaction external disk carrier 1321, and the stability of rotation to ensure reaction external disk carrier 1321 is reliable.Preferably Ground, rolling support 13241 are that guide and limit bearing in the other embodiment of the utility model, can also be used and remove certainly Structure other than guide and limit bearing realizes guiding and limit to guide and limit guide rail 13242.In the present embodiment, branch is rolled The quantity of support member 13241 is three.

Again optionally, guide and limit structure 1324 further includes lubrication assembly 13243, and lubrication assembly 13243 is fixed on reaction On external disk mounting base 13221, while the periphery of guide and limit guide rail 13242 is also caught in the lubrication groove of lubrication assembly 13243, To play lubricating action to guide and limit guide rail 13242.Further, the quantity of lubrication assembly 13243 be one, two, three It is a or more.In the present embodiment, the quantity of lubrication assembly 13,243 one.Preferably, the section of guide and limit guide rail 13242 V-shaped setting, correspondingly, the also V-shaped setting of the sliding slot of rolling support 13241, the also V-shaped setting of corresponding lubrication groove, Ensure that guide and limit is reliable.

Again optionally, it further includes compressing structure 1325 to react outer disc mechanism 132, and compressing structure 1325 is set to reaction external disk On mounting structure 1322, one of rolling support 13241 is installed on compressing structure 1325, and compressing structure 1325 is for adjusting Save the spacing between rolling support 13241 and guide and limit guide rail 13242.Specifically, compressing structure 1325 can drive rolling Dynamic support element 13241 is moved relative to reaction external disk mounting structure 1322, to adjust guide and limit guide rail 13242 and rolling support The distance between part 13241.The cooperation tight ness rating of guide and limit guide rail 13242 and rolling support 13241 can be adjusted in this way, Rolling support 13241 is avoided to be detached from guide and limit guide rail 13242, to reduce rolling support 13241 and guide and limit guide rail Gap between 13242, to which 1321 high-speed rotation of elimination reaction external disk carrier is to rolling support 13241 and guide and limit The impact that guide rail 13242 generates, prolongs the service life, and improves the running precision of reaction external disk carrier 1321；Simultaneously, moreover it is possible to protect Card rolling support 13241 supports reliably guide and limit guide rail 13242 so that the steady reliable fortune of guide and limit guide rail 13242 Row, and then ensure that reaction external disk carrier 1321 operates steadily.Certainly, in the other embodiment of the utility model, also may be used Each rolling support 13241 corresponds to a compressing structure 1325.

Further, compressing structure 1325 includes compressing mounting base 13251, compress elastic component 13253 and compressing guide rod 13252, it compresses guide rod 13252 and is installed on reaction external disk mounting structure 1322, compress mounting base 13251 and be mounted slidably In compressing on guide rod 13252, compresses elastic component 13253 and be sheathed on compression guide rod 13252, and compress elastic component 13253 Both ends respectively with compress guide rod 13252 and compress mounting base 13251 abut.Rolling support 13241 is installed on compression peace It fills on seat 13251, compressing elastic component 13253 can be such that compression mounting base 13251 is moved on compressing guide rod 13252, and with Guide and limit guide rail 13242 abuts.It is compressing guide rod 13252 it is understood that compressing elastic component 13253 and is compressing installation Compressive state is between seat 13251, under the action of compressing 13253 elastic force of elastic component, compressing elastic component 13253 can push The direction that compression mounting base 13251 is directed away from compression elastic component 13253 along compression guide rod 13252 moves, and then compresses peace Dress seat 13251 can drive rolling support 13241 thereon to be moved towards guide and limit guide rail 13242 so that rolling support 13241 compress with guide and limit guide rail 13242, realize the abutting of the two.Can be always ensured that in this way rolling support 13241 with The abutting state of guide and limit guide rail 13242 so that rolling support 13241 can always play guide and limit guide rail 13242 Support, guiding and position-limiting action, to ensure that reaction carrier operates steadily.

Preferably, there is boss, boss to protrude from the surface for compressing guide rod 13252 for the one end for compressing guide rod 13252 Setting, boss are used to limit the position for compressing elastic component 13253 on compressing guide rod 13252.Elastic component 13253 is compressed to be arranged In compressing on guide rod 13252, the one end for compressing elastic component 13253 is abutted with the boss for compressing 13252 one end of guide rod, is compressed The other end of elastic component 13253 is abutted with mounting base 13251 is compressed, and is avoided the position play for compressing elastic component 13253, is ensured pressure Tight elastic component 13253, which can be adjusted reliably, compresses mounting base 13251.Moreover, it is spring to compress elastic component 13253, certainly, In the other embodiment of the utility model, it can be also shrapnel or other knots with elastic property to compress elastic component 13253 Structure.

Still further, compressing structure 1325 further includes being fixed seat 13254, it is fixed seat 13254 and is fixed on instead It answers on external disk mounting structure 1322, compression guide rod 13252, which is installed on, to be fixed on seat 13254.Seat 13254 is fixed to rise Fixed effect is supported, guide rod 13252 is compressed by being fixed seat 13254 and is fixed on reaction external disk mounting structure 1322 On, to ensure to compress being reliably fixed for guide rod 13252.

Optionally, it further includes tension structure 1326 to react outer disc mechanism 132, and tension structure 1326 is set to reaction external disk peace It fills on bottom plate 13221, tension structure 1326 is abutted with external disk synchronous belt 132322 is reacted.It can be always by tension structure 1326 It is abutted with external disk synchronous belt 132322 is reacted so that reaction external disk synchronous belt 132322 is in tensioning state always, anti-to ensure Answer 132322 reliable transmission of external disk synchronous belt.

In an embodiment of the utility model, tension structure 1326 includes tensioning wheel 13261, tensioning wheel 13261 Axis, tensioning guide rod 13262 and tensioning elastic component 13263, tensioning guide rod 13262 are fixed on reaction external disk mounting structure 1322 On, tensioning wheel 13261 is rotatablely arranged on 13261 axis of tensioning wheel, and tensioning wheel 13261 is located at reaction external disk synchronous belt The one end in 132322 outside, tensioning elastic component 13263 is fixed on tensioning guide rod 13262, and the another of elastic component 13263 is tensioned One end and 13261 axis connection of tensioning wheel, tensioning elastic component 13263 can be moved along tensioning guide rod 13262, make tensioning wheel 13261 abut with external disk synchronous belt 132322 is reacted.Tensioning wheel 13261 can be abutted with external disk synchronous belt 132322 is reacted, instead When external disk synchronous belt 132322 being answered to rotate, reaction external disk synchronous belt 132322 can drive tensioning wheel 13261 relative to tensioning wheel 13261 shaft rotations are dynamic, and tensioning wheel 13261 can be avoided to interfere between external disk synchronous belt 132322 with react in this way, ensured instead Answer 132322 reliable transmission of external disk synchronous belt.It is understood that tensioning elastic component 13263 is in compressive state, when reaction is outer When disk synchronous belt 132322 relaxes, tensioning elastic component 13263 can be stretched along tensioning guide rod 13262, at this point, tensioning elasticity Part 13263 can drive tensioning wheel 13261 to move so that tensioning wheel 13261 is connected to reaction external disk synchronous belt 132322 always On, and then ensure that reaction external disk synchronous belt 132322 remains tensioning state.Preferably, tensioning elastic component 13263 is spring, Spring pocket is set on tensioning guide rod 13262.Certainly, in the other embodiment of the utility model, shrapnel or other tools The structure of flexible performance.

Further, tension structure 1326 further includes tightening rails 13264 and tensioning sliding block 13265, tightening rails 13264 It is set on reaction external disk mounting structure 1322,13261 axis of tensioning wheel is fixed on tensioning sliding block 13265, is tensioned sliding block 13265 It is slidably disposed on tightening rails 13264, tensioning elastic component 13263 is connect with tensioning sliding block 13265, is tensioned elastic component 13263 can drive tensioning sliding block 13265 to be moved along tightening rails 13264, and drive 13261 axis of tensioning wheel and tensioning thereon 13261 movement of wheel.When being tensioned elastic component 13263 along the tensioning stretching, extension of guide rod 13262, tensioning elastic component 13263 drives tensioning Sliding block 13265 moves, and tensioning sliding block 13265 can drive 13261 axis of tensioning wheel thereon and tensioning wheel 13261 to move synchronously, Tensioning wheel 13261 is enable to be tensioned reaction external disk synchronous belt 132322；Meanwhile sliding block 13265 is tensioned along tightening rails 13264 movements can ensure the movement locus for being tensioned sliding block 13265 so that tensioning sliding block 13265 can be outer towards tensioning reaction The direction of disk synchronous belt 132322 moves.Preferably, the inside of 13264 orientating reaction external disk synchronous belt 132322 of tightening rails is prolonged It stretches.

Still further, tension structure 1326 further includes tensioning connecting component 13266, tensioning connecting component 13266 connects It is tensioned sliding block 13265 and tensioning elastic component 13263, tensioning elastic component 13263 drives tensioning by being tensioned connecting component 13266 Sliding block 13265 moves.Preferably, tensioning connecting component 13266 is L-shaped, L-shaped is tensioned one end and the tensioning of connecting component 13266 Sliding block 13265 connects, and the other end of L-shaped tensioning connecting component 13266 is connect with tensioning elastic component 13263.

It is understood that when reaction external disk transmission component 13232 does not use reaction external disk synchronous belt 132322 to be driven, It can be not necessarily to be tensioned reaction external disk transmission component 13232.In the present embodiment, reaction external disk synchronous belt 132322 is being run When, tensioning wheel 13261 always with react external disk synchronous belt 132322 and be in contact；In transmission process, if reaction external disk synchronous belt 132322 there are relaxation, and tensioning elastic component 13263 can do stretching routine, tensioning elasticity along tensioning guide rod 13262 Part 13263 drives tensioning connecting component 13266 to move, and is then tensioned connecting component 13266 and drives tensioning sliding block 13265 along tensioning Sliding rail 13264 slides, at this point, tensioning sliding block 13265 can be tensioned reaction external disk synchronous belt by tensioning wheel 13261 thereon 132322 so that reaction external disk synchronous belt 132322 is in tensioning state always, ensures that reaction external disk synchronous belt 132322 is run Reliably.

Again optionally, it further includes reaction external disk detection structure 1327 to react outer disc mechanism 132, reacts external disk detection structure 1327 are set on reaction external disk mounting base 13221, and reaction external disk detection structure 1327 is for reacting external disk carrier 1321 Initialization.It includes that reaction external disk induction pieces 13271 and reaction external disk initialize detection piece to react external disk detection structure 1327 13272, reaction external disk induction pieces 13271 are set on reaction external disk carrier 1321, and reaction external disk initializes detection piece 13272 It is installed on reaction external disk mounting base 13221.Reaction external disk initialization detection piece 13272 can with react external disk induction pieces 13271 cooperations initialize reaction external disk carrier 1321 with the initial position of detection reaction external disk carrier 1321. It is understood that reaction external disk initialization detection piece 13272 reacts external disk carrier with the detection of external disk induction pieces 13271 is reacted 1321 initial position is to react the outer realization of disk-drive motor 13231 by controlling, and reacts outer disk-drive motor 13231 in this way It is at initial position, and then can accurately be monitored outside reaction by reacting the movement step number of outer disk-drive motor 13231 The position of disk carrier 1321 so that reaction external disk carrier 1321 moves accurate and reliable.In the present embodiment, reaction external disk induction Part 13271 is optocoupler sensing chip, and reaction external disk initialization detection piece 13272 can be detection light coupling；Certainly, in the utility model Other embodiment in, reaction external disk induction pieces 13271 and reaction external disk initialization detection piece 13272 can be with Hall switch Or other can realize the component of initialization detection.

Referring to Fig. 1 to Fig. 3 and Fig. 9 to Figure 11, as a kind of embodiment, it further includes reaction to react interior disc mechanism 133 Inner disc mounting structure 1332 and with react inner disc carrier 1331 drive connection reaction inner disc driving structure 1333, react inner disc Carrier 1331 is in the form of annular discs.1333 drive response inner disc carrier 1331 of inner disc driving structure is reacted relative to reaction inner disc peace Assembling structure 1332 rotates.Reaction inner disc mounting structure 1332 is for playing carrying installation, reaction inner disc driving structure 1333 It being installed on reaction inner disc mounting structure 1332, reaction inner disc carrier 1331 is installed in reaction inner disc driving structure 1333, It reacts 1333 drive response inner disc carrier 1331 of inner disc driving structure to rotate so that reaction inner disc carrier 1331 turns to phase The position answered, and execute corresponding operation and such as add cup, take cup operation.Moreover, in the present embodiment, reacting external disk mounting structure 1322 are installed on reaction inner disc mounting structure 1332.

It is discoid to react inner disc carrier 1331, and reaction external disk carrier 1321 is annular shape, can be ensured so anti- It answers external disk carrier 1321 to be sheathed on 1331 outside of reaction inner disc carrier, reduces occupied space, moreover, reaction external disk carrier 1321 will not also interfere with reacting when inner disc carrier 1331 rotates respectively, ensure that movement is reliable.Moreover, reaction inner disc is held Multiple incubation holes 13311 for placing response container 20, the reaction on reaction external disk carrier 1321 are set on load plate 1331 Container 20, which is incubated, grabs cup mechanism 163 and is transferred in the incubation hole 13311 of reaction inner disc carrier 1331, react in disc mechanism 133 pairs of reaction vessels 20 incubated in hole 13311 carry out incubation operation, and after preset time, cup mechanism 164 will be grabbed in cleaning to react Reaction vessel 20 in inner disc carrier 1331 takes out, and is transferred in predeterminated position i.e. cleaning device 14.

Further, multiple holes 13311 that incubate are arranged in column along the radial direction of reaction inner disc carrier 1331, and multiple Hole 13311 is incubated to radially distribute on reaction inner disc carrier 1331.Enable to incubate hole 13311 in this way in reaction Ordered arrangement on disk carrier 1331 can be realized and add or take out reaction vessel into incubation hole 13311 in fixed position 20.After multiple incubation holes 13311 are arranged in column, the incubation holes 13311 of multiple equal radiuses along circumferential direction on line it is rounded Distribution, and the hole 13311 that incubates of multiple circular distributions is arranged around the center of circle of reaction inner disc carrier 1331 in concentric circles so that Multiple holes 13311 that incubate radially distribute relative to the center of circle of reaction inner disc carrier 1331.Still further, arbitrary neighborhood Two row incubate holes 13311 quantity it is different.The more incubation holes of arrangement on reaction inner disc carrier 1331 are enabled in this way 13311, and then increase the addition quantity of reaction vessel 20, it can be achieved at the same time multiple reaction vessels 20 and carry out incubation operation, carry The incubation rate of high reaction vessel 20 then improves the detection rates of chemiluminescence detector.

As a kind of embodiment, reaction inner disc mounting structure 1332, which has to incubate to put glass station region and clean, to be taken Cup station region.The incubation of reaction inner disc mounting structure 1332 put glass station region and cleaning to take a glass station region be fixed setting , and corresponding reaction inner disc carrier 1331 is arranged, 1,333 1331 turns of drive response inner disc carrier of reaction inner disc driving structure Dynamic, reaction inner disc driving structure 1333 being capable of each incubation hole 13311 fortune of the drive of drive response inner disc carrier 1331 thereon Move corresponding position.Incubation, which puts glass station region and corresponds to incubate, grabs the setting of cup mechanism 163, and incubation is grabbed cup mechanism 163 and captured instead It answers the reaction vessel 20 in external disk carrier 1321 and puts a glass station region in incubation and reaction vessel 20 is placed into reaction inner disc In the incubation hole 13311 of carrier 1331.Cleaning takes glass station region to correspond to cleaning and grabs the setting of cup mechanism 164, and a glass machine is grabbed in cleaning Structure 164 cleaning take glass station region by reaction vessel 20 from reaction inner disc carrier 1331 in take out.And it incubates and puts a glass station The incubation that region is closed on reaction external disk carrier 1321 takes a glass station setting, and it is outer from reaction can to reduce reaction vessel 20 in this way Disk carrier 1321 moves to the motion path of reaction inner disc carrier 1331；Cleaning takes a glass station region to close on cleaning device 14 Setting can reduce the motion path that reaction vessel 20 moves to cleaning device 14 from reaction inner disc carrier 1331 in this way, real The fast transfer of existing reaction vessel 20, improves the operational efficiency of chemiluminescence detector.

It is understood that incubate put glass station region and cleaning take a glass station region be one along reaction inner disc carrying The region of 1331 radial direction of disk setting, incubation, which grabs cup mechanism 163, to put the corresponding reaction inner disc in glass station region in incubation Corresponding operation is executed on carrier 1331, cup mechanism 164 is grabbed in cleaning to be taken in glass corresponding reaction in station region in cleaning Corresponding operation is executed on disk carrier 1331, putting the corresponding row in glass station region in incubation incubates any one of hole 13311 A middle placing response container 20 is reacted in any one taking-up that cleaning takes the corresponding row in glass station region to incubate hole 13311 Container 20.If react one circle incubation hole 13311 of a setting on inner disc carrier 1331, incubation is put glass station region and is cleaned and takes Cup station region is only a position.

Specifically, 1333 drive response inner disc carrier 1331 of reaction inner disc driving structure turns to and incubates Fang Bei stations area Domain, at this point, the row on reaction inner disc carrier 1331 radially, which incubate the correspondence incubation of hole 13311, puts a glass station region, Incubation, which grabs cup mechanism 163, to put transfer at glass station region in incubation by the reaction vessel 20 reacted in external disk carrier 1321 Into the incubation hole 13311 of any sky；1333 drive response inner disc carrier 1331 of reaction inner disc driving structure turns to cleaning A glass station region is taken, at this point, the row on reaction inner disc carrier 1331 radially, which incubate the correspondence cleaning of hole 13311, takes cup Station region, cleaning grabs cup mechanism 164 and the reaction vessel 20 after the completion of incubation is taken taking-up at glass station region in cleaning, and turns It moves on in cleaning device 14.

As a kind of embodiment, reaction inner disc mounting structure 1332 is including reaction inner disc mounting base 13321 and instead Answer inner disc support column 13322.Reaction inner disc mounting base 13321 can be supported on chemical hair by reaction inner disc support column 13322 On the table top of optical detector.Reaction inner disc driving structure 1333 is installed on reaction inner disc mounting base 13321.Optionally, instead External disk support column 13222 is answered to be structure as a whole with inner disc mounting base 13321 is reacted；Certainly, reaction external disk support column 13222 with Reaction inner disc mounting base 13321 also can be independently arranged.React inner disc driving structure 1333 include rotating platform 13331 and Rotating pad 13332, rotating pad 13332 are installed on rotating platform 13331, and rotating platform 13331 also with react inner disc Carrier 1331 connects, and rotating platform 13331 can drive rotating pad 13332 that reaction inner disc carrier 1331 is driven to rotate, So that reaction inner disc carrier 1331 drives the corresponding hole 13311 that incubates to turn to corresponding station, and execute corresponding operation.

Preferably, rotating platform 13331 is independently rotary device, it is integrated with motor, guide bearing, gear drive With electronic control component etc., the power plant with independent completion and can directly drive.In the present embodiment, rotating platform 13331 have the rotor for stretching out rotating platform 13331.Rotating pad 13332 is installed on rotor, and 13332 energy of rotating pad Enough that reaction inner disc carrier 1331 is fixed on rotor, rotor rotation can drive rotating pad 13332 to rotate, and then drive Reaction inner disc carrier 1331 and incubation hole 13311 thereon rotate.Rotating platform 13331 has installation maintenance simply excellent Point, it is compact-sized, small, and included deceleration kinetic energy, reaction inner disc carrier 1331 can be directly driven and rotated.It has debugged Rotating platform 13331 can be used as a parts disassembly and installation, be brought greatly to the installation, debugging and maintenance of transmission component Portability, it is easy to assemble, it is non-maintaining.Certainly, in the other embodiment of the utility model, rotating platform 13331 also can quilt Replace with the combination of the drive mechanisms such as the second reaction driving motor mate gear transmission component, toothed belt transmission component, above-mentioned biography The output end of dynamic structure is connect with reaction inner disc carrier 1331, is rotated with drive response inner disc carrier 1331.

Disc mechanism 133 further includes reaction inner disc detection structure 1334 in reaction, and reaction inner disc detection structure 1334 is set to On rotating platform 13331, reaction inner disc detection structure 1334 can detect the initialized location of reaction inner disc carrier 1331.Instead It includes reaction inner disc detection piece 13341 and reaction inner disc induction pieces 13342 to answer inner disc detection structure 1334, reacts inner disc detection piece 13341 are set on rotating platform 13331, and reaction inner disc induction pieces 13342 are installed on rotor.React inner disc induction pieces 13342 can coordinate with inner disc detection piece 13341 is reacted, and the initial position of detection reaction inner disc carrier 1331 facilitates reaction The initialization of inner disc carrier 1331 positions.In the present embodiment, reaction inner disc detection piece 13341 can be detection light coupling, reaction Inner disc induction pieces 13342 can be optocoupler sensing chip；Certainly, in the other embodiment of the utility model, reaction inner disc inspection Survey part 13341 and react inner disc induction pieces 13342 can with Hall switch or other can realize the component of position detection.It can With understanding, reaction inner disc induction pieces 13342 react the first of inner disc carrier 1331 with the detection of inner disc detection piece 13341 is reacted Beginning position is to realize that such rotating platform 13331 is at initial position by controlling the operation of rotating platform 13331, into And the position of reaction inner disc carrier 1331 can be accurately monitored by the movement step number of rotating platform 13331 so that reaction Inner disc carrier 1331 moves accurately and reliably.

Preferably, reaction inner disc carrier 1331 is hollow structure, there is rotating hole, rotating pad 13332 to extend into rotation It in turn hole, and is abutted with the inner wall of rotating hole, realizes that rotating pad 13332 is connect with reaction inner disc carrier 1331, rotary flat The rotation of platform 13331 drives rotating pad 13332 to rotate, and then reaction inner disc carrier 1331 is driven to rotate.Optionally, rotating pad Block 13332 is also hollow structure, can reduce rotary inertia when rotating pad 13332 rotates in this way, meanwhile, it can also rotate Other parts of interior disc mechanism 133 are reacted in installation in cushion block 13332, reduce the volume of disc mechanism 133 in reaction.

Optionally, disc mechanism 133 goes back packet response structure of controlling temperature 1335 in reacting, and reaction structure of controlling temperature 1335 is set to reaction The lower section of inner disc carrier 1331, reaction structure of controlling temperature 1335 can to reaction inner disc carrier 1331 in reaction vessel 20 into Row heating.Preferably, reacting structure of controlling temperature 1335 and reacting inner disc carrier 1331 independently of each other, can mitigate in reaction in this way Momentum when disk carrier 1331 rotates ensures that reaction inner disc 1331 stability of rotation of carrier are reliable.Optionally, reaction inner disc peace Assembling structure 1332 further includes reaction inner disc mounting post 13323, and reaction inner disc mounting post 13323 can play a supporting role, react Reaction structure of controlling temperature 1335 can be supported on reaction inner disc mounting base 13321 by inner disc mounting post 13323.Certainly, exist In the other embodiment of the utility model, reaction structure of controlling temperature 1335 could be secured on reaction inner disc carrier 1331.

Reaction structure of controlling temperature 1335 can generate heat to be heated to reaction inner disc carrier 1331 so that in reaction The temperature of disk carrier 1331 incubated in hole 13311 is at 37 DEG C or so, in this way, when reaction vessel 20 is transferred to reaction inner disc In the incubation hole 13311 of carrier 1331, reaction structure of controlling temperature 1335 can provide for the reaction of mixture in reaction vessel 20 Environment is incubated, ensures that sample is reacted with reagent and can be normally carried out, and then the detection that shines subsequently conveniently is carried out to sample.Preferably Ground, reaction structure of controlling temperature 1335 are the structure of a relative closure, the incubation environment for generating one 37 DEG C or so.

Specifically, reaction structure of controlling temperature 1335 includes reaction heating component 13351 and reaction heat insulation module 13352, reaction Heating component 13351 can heat reaction inner disc carrier 1331, and reaction heat insulation module 13352 can be to reacting inner disc Carrier 1331 is kept the temperature, and by reacting heating component 13351 and the collective effect for reacting heat insulation module 13352, can be made The temperature that inner disc carrier 1331 must be reacted is constant at 37 DEG C or so so that reaction inner disc carrier 1331 is preferable in one Environment is incubated, ensures the incubation effect of sample.

It includes constant temperature seat 133511 and heating member 133512 to react heating component 13351, and constant temperature seat 133511 is located at reaction The lower section of inner disc carrier 1331, heating member 133512 are set on the bottom surface of constant temperature seat 133511, pass through heating member 133512 Constant temperature seat 133511 is heated, then is heated by 133511 pairs of reaction inner disc carriers 1331 of constant temperature seat.Constant temperature seat 133511 can be supported on by reacting inner disc mounting post 13323 on reaction inner disc mounting base 13321, react structure of controlling temperature 1335 other parts are installed on constant temperature seat 133511.Preferably, the heat generated after 133512 electrified regulation of heating member The constant temperature seat 133511 of good heat conductivity can be passed to so that 133511 surrounding of constant temperature seat forms the heat radiation of large area, into And reaction inner disc carrier 1331 is quickly heated, concurrent heating, to ensure the heating effect of reaction inner disc carrier 1331, Improve the efficiency of heating surface.In the present embodiment, constant temperature seat 133511 is Metal constant temperature seat 133511, and heating member 133512 adds for silica gel The torrid zone.Certainly, in the other embodiment of the utility model, constant temperature seat 133511 can also be other kinds of constant temperature knot Structure, heating member 133512 can also be heating film or other can realize the structure of heating.

Constant temperature seat 133511 includes constant temperature pedestal and the multiple constant temperature baffles being set on constant temperature pedestal, multiple constant temperature baffles It is arranged in a ring, and radius is different, multiple constant temperature baffles are arranged layer by layer on the basis of the center of circle of constant temperature pedestal, arbitrary neighborhood Two constant temperature baffles between there are spacing, form the circulation passage of annular.Multiple constant temperature baffles can increase constant temperature seat 133511 thermal radiation capability ensures heating effect.Preferably, the distance between two constant temperature baffles of arbitrary neighborhood with react The distance between two incubation holes 13311 being radially distributed on inner disc carrier 1331 are adapted, in this way, each circulation Channel can incubate the reaction vessel 20 in hole 13311 to a corresponding circle on reaction inner disc carrier 1331 and heat.It can With understanding, the often circle of reaction inner disc carrier 1331 incubates two adjacent constant temperature in hole 13311 and constant temperature seat 133511 Circulation passage between baffle corresponds to.In this way, reaction vessel 20 is transferred to the incubation hole 13311 of reaction inner disc carrier 1331 Afterwards, reaction vessel 20 passes through incubation hole 13311 to extend into circulation passage, and the heat of constant temperature seat 133511 can be directly to reaction Container 20 and mixture therein are heated.Moreover, the spacing between two adjacent constant temperature baffles is more than reaction vessel 20 Along the size of 1331 radial direction of reaction inner disc carrier, 1333 drive response inner disc carrier of inner disc driving structure is reacted in this way When 1331 drive reaction vessels 20 rotate, reaction vessel 20 will not be interfered with constant temperature baffle.

Optionally, circulation groove is also opened up on each constant temperature baffle, circulation groove is connected to two circulation passages of arbitrary neighborhood, rotation When platform 13331 drives reaction inner disc carrier 1331 to rotate, reaction inner disc carrier 1331 can to annular flow channel with And the air-flow between two adjacent annular flow channels is disturbed so that heat in each circulation passage accelerate in ring with Interannular flows so that heat evenly, provides a good incubation environment in constant temperature seat 133511.Certainly, new in this practicality In the other embodiment of type, circulation groove, which can be replaced by recirculation hole or other, can realize that two of arbitrary neighborhood are circulated The structure of airflow between channel.

It further includes heating tape fixture block 133513 to react heating component 13351, and heating tape fixture block 133513 is located at heating member 133512 lower section ensures that the position of heating member 133512 is solid for heating member 133512 to be fixed on constant temperature seat 133511 It is fixed, then ensure heating effect.Moreover, heating tape fixture block 133513 can also make heating member 133512 and constant temperature seat 133511 It is uniformly affixed, with efficient uniform heated constant temperature seat 133511.Meanwhile heating tape fixture block 133513 can also be convenient for reaction heat preservation group The installation of part 13352 so that reaction heat insulation module 13352 is pasted onto by heating tape fixture block 133513 on constant temperature seat 133511, It avoids radiating.Preferably, heating tape fixture block 133513, heating member 133512 and constant temperature seat 133511 are hollow structure, heating Band fixture block 133513, heating member 133512 and constant temperature seat 133511 are sheathed in rotating pad 13332, and and rotating pad There is default spacing between 13332, so that rotating pad 13332 will not drive heating tape fixture block 133513, heating member 133512 and constant temperature seat 133511 rotate.

Reaction structure of controlling temperature 1335 further includes monitoring temperature component, monitoring temperature component for detect constant temperature seat 133511 and Surrounding temperature.Specifically, monitoring temperature component includes at least two monitoring temperature components, at least two monitoring temperature components It may be contained on constant temperature seat 133511, and at least two monitoring temperature components are set to the circumferential direction of difference of constant temperature seat 133511 From it is different in the radial direction.It is understood that distance of at least two monitoring temperature components to the center of circle of constant temperature seat 133511 Difference, and on the different radial direction of constant temperature seat 133511.Enable at least two monitoring temperature components can in this way The temperature and the environment temperature around constant temperature seat 133511 for monitoring 133511 different location of constant temperature seat, to ensure constant temperature seat 133511 temperature is accurate and reliable, then ensures that the incubation reaction of sample is normally carried out.In the present embodiment, at least two temperature Monitoring part includes the first monitoring temperature component and second temperature monitoring part, and the first monitoring temperature component is monitored with second temperature Component may be contained on constant temperature seat 133511, and the first monitoring temperature component is set to constant temperature seat with second temperature monitoring part The 133511 circumferential directions of difference with it is different in the radial direction, i.e. the first monitoring temperature component and second temperature monitoring part are to permanent The distance in the center of circle of warm seat 133511 is different, and on the different radial direction of constant temperature seat 133511.First monitoring temperature portion Part can monitor the temperature of constant temperature seat 133511 and the temperature of surrounding air with second temperature monitoring part, by rank between the two Ladder type data Real-time Feedback compares, and calculates electric current of the control to heating member 133512 so that constant temperature seat 133511 forms one surely Fixed thermostat, and ensure that 133511 ambient temperature of constant temperature seat is constant, ensure the heating effect to reacting inner disc carrier 1331. Optionally, monitoring temperature component further includes heating sensor, and heating sensor is set on heating member 133512, is added for detecting The heating temperature of warmware 133512.

Optionally, disc mechanism 133 further includes insulation cover structure 1336 in reacting, and insulation cover structure 1336 is covered in reaction On disk carrier 1331.Opened up in insulation cover structure 1336 incubation put glass slot 133611 and cleaning take glass slot 133612, incubation is put Cup slot 133611 takes glass slot 133612 to be opened up along the radial direction for reacting inner disc carrier 1331 with cleaning.Incubation puts a glass slot 133611, which correspond to incubation, puts a glass station region.Cleaning takes glass slot 133612 to correspond to cleaning and takes a glass station region, and incubates and put a glass slot 133611 incubations corresponded on reaction external disk carrier 1321 take a glass station setting, cleaning that glass slot 133612 is taken to correspond to cleaning device 14 settings.Insulation cover structure 1336 can ensure that heat will not distribute, and then ensure that the temperature of reaction inner disc carrier 1331 is permanent It is fixed, ensure that disc mechanism 133 is to the incubation effect of sample in reaction vessel 20 and reagent in reaction.It is understood that insulation cover Structure 1336 is fixed on reaction inner disc mounting base 13321, and insulation cover structure 1336 will not be with reaction inner disc carrier 1331 rotation and rotate, enable to the incubation of insulation cover structure 1336 to put corresponding always incubate of glass slot 133611 in this way and put cup Station region, cleaning takes glass slot 133612, and corresponding cleaning takes a glass station region always, facilitate third grab cup structure take cup with Put cup operation.

Insulation cover structure 1336 forms a relatively closed environment with heat insulation module 13352 is reacted, and reduces the stream of heat It loses, then ensures the incubation effect of sample in reaction inner disc carrier 1331.It includes inner wall heat-preservation cotton to react heat insulation module 13352 133522, bottom heat-preservation cotton 133521 and outer wall heat-preservation cotton 133523, bottom heat-preservation cotton 133521 are located at reaction heating component 13351 lower section is located at the lower section of heating tape fixture block 133513, meanwhile, bottom heat-preservation cotton 133521 is pasted onto heating tape folder On block 133513.Inner wall heat-preservation cotton 133522 and outer wall heat-preservation cotton 133523 may be contained in bottom heat-preservation cotton 133521, and interior Wall heat-preservation cotton 133522 is located in the rotating hole of reaction inner disc carrier 1331, and positioned at the outside of rotating pad 13332, outer wall Heat-preservation cotton 133523 is located at the outside of reaction inner disc carrier 1331.Inner wall heat-preservation cotton 133522, bottom heat-preservation cotton 133521 and Outer wall heat-preservation cotton 133523 forms the closed environment of a relative closure with insulation cover structure 1336, reduces the loss of heat.When So, in the other embodiment of the utility model, inner wall heat-preservation cotton 133522, bottom heat-preservation cotton 133521 and outer wall heat-preservation cotton 133523 other thermal insulation materials that also can be used in addition to heat-preservation cotton are made or use other insulation constructions.Moreover, reaction heat preservation Component 13352 further includes heat insulation 133524, and heat insulation 133524 is set to the top of reaction inner disc mounting post 13323, with It avoids the problem that generating gap heat transfer after reaction inner disc mounting post 13323 is installed, avoids heat losses.Preferably, heat insulation 133524 are made of plastic material；Certainly, also can by other can heat-insulated material be made.Moreover, in the present embodiment, inner wall is protected Warm cotton 133522 and the quantity of outer wall heat-preservation cotton 133523 are three, and three inner wall heat-preservation cottons 133522 are stacked in bottom In heat-preservation cotton 133521, three outer wall heat-preservation cottons 133523 are stacked in bottom heat-preservation cotton 133521.Certainly, inner wall is kept the temperature The quantity of cotton 133522 and outer wall heat-preservation cotton 133523 can also be two, four or even more.

Specifically, insulation cover structure 1336 includes lid 13361 and lid pillar 13362, lid 13361 is set to lid On pillar 13362, and it is covered on reaction inner disc carrier 1331.Lid pillar 13362 wears reaction inner disc carrier 1331 Rotating hole be fixed on reaction inner disc mounting base 13321, and lid pillar 13362 also wears hollow rotating pad 13332, the rotational motion of rotating pad 13332 can be avoided to be interfered with lid pillar 13362 in this way, ensure reaction carrying Disk stability of rotation is reliable.Glass slot 133612 is taken to be respectively positioned on lid 13361 moreover, incubating to put glass slot 133611 and clean.

In an embodiment of the utility model, insulation cover structure 1336 further includes locked component 13363, locked component 13363 are set on lid 13361 and lid pillar 13362, and lid 13361 is locked on lid pillar 13362, ensure Lid 13361 is reliably covered on reaction inner disc carrier 1331.Specifically, locked component 13363 includes locking piece 133631 and lock piece 133632, locking piece 133631 be movably set on lid 13361, lock piece 133632 is fixed on The top of lid pillar 13362.Locking piece 133631 can move at lock piece 133632, and match with lock piece 133632 It closes, the locking of lid 13361 is realized, at this point, lid 13361 cannot be removed；Locking piece 133631 is detached from lock piece 133632, Lid 13361 is in the unlocked state, at this point, lid 13361 can be removed.Further, locked component 13363 further includes stirring Part 133633, shifting part 133633 are movably set on lid 13361, and shifting part 133633 connects with locking piece 133631 It connects, shifting part 133633 can drive locking piece 133631 to move, and locking piece 133631 is made to lock or be detached from lock piece 133632. It is understood that shifting part 133633 can drive locking piece 133631 to move so that locking piece 133631 can be with locking Part 133632 coordinates, and lid 13361 is locked on lid pillar 13362；Shifting part 133633 can also drive locking piece 133631 movements so that locking piece 133631 can be detached from lock piece 133632 so that lid 13361 is unlocked on lid pillar 13362。

Preferably, shifting part 133633 is rotational parts, shifting part 133633 includes locking bar and release bar.Locking piece 133631 connect with rotating member including rotating member and the lock shaft being connect with rotating member, locking bar with release bar；Lock piece 133632 can match including locking platform and the protrusion being set on locking platform, lock shaft with protrusion, realize lid 13361 locking.When locking bar moves upwards, locking bar by rotating member drive lock shaft towards projection movement, and with it is convex Cooperation is played, realizes that lid 13361 is locked on lid pillar 13362；When release bar moves upwards, release bar passes through rotating member It drives lock shaft to be detached from protrusion, realizes lid 13361 from the unlock on lid pillar 13362.Optionally, lock shaft is not intended to limit Can also be the part that other cooperations can lock in axial workpiece；The shape of protrusion is L-shaped, and the card of lock shaft is facilitated to set, when The lock slots so or in protrusion opened up.Further, guiding surface is set in protrusion, slides into and skid off convenient for lock shaft, side Just the cooperation of lock shaft and protrusion.Still further, protrusion is structure as a whole with locking platform.In the another reality of the utility model Apply mode, the mode that sliding can also be used in shifting part 133633 is arranged, slide shifting part 133633, realize locking piece 133631 with The cooperation and disengaging of lock piece 133632, are conveniently operated.Certainly, in the other embodiment of the utility model, locked component 13363 can be also fixed on lid pillar 13362 by screw element.

Optionally, insulation cover structure 1336 further includes core cap 13364, and the central region of lid 13361 opens up mounting hole, is dialled Moving part 133633 is installed on locking piece 133631 on core cap 13364, and core cap 13364 is enclosed with lid 13361 is set as annular groove, Shifting part 133633 can move in annular groove, realize the locking and unlock of lid 13361.Specifically, working as release bar position When in annular groove, locking bar is located at the top of core cap 13364, at this point, lid 13361 is locked on lid pillar 13362； When locking bar is located in annular groove, release bar is located at the top of core cap 13364, and lid 13361 unlocks.It is understood that Annular groove enables to the position of release bar and locking bar to fix, and is not susceptible to play, then ensures the locking of lid 13361 It is reliable with unlocked state.Certainly, in the other embodiment of the utility model, lid 13361 and core cap 13364 or one Body structure, and annular groove is opened up, realize the limit of shifting part 133633.

Moreover, insulation cover structure 1336 further includes surveying cover piece and 13361 induction pieces of lid, the setting of 13361 induction pieces of lid In on lid 13361, survey cover piece is set to the top of lid pillar 13362.13361 induction pieces of lid can be detected by surveying cover piece Position, to determine whether lid 13361 covers.It is understood that 13361 induction pieces of lid, table can be sensed by surveying cover piece Show that lid 13361 is covered on reaction inner disc carrier 1331；If 13361 induction pieces of lid cannot be sensed by surveying cover piece, indicate Lid 13361 is not covered on far from reaction carrier or lid 13361 on reaction inner disc carrier 1331 well.Preferably Ground, it is to survey cover sensor to survey cover piece, and 13361 induction pieces of lid are induced magnet；Certainly, in other embodiment party of the utility model In formula, survey cover piece can also can realize the fit structure whether lid 13361 covers with 13361 induction pieces of lid for other.It protects Warm lid structure 1336 further includes core heat-preservation cotton 13368, core heat-preservation cotton 13368 be arranged the inside of rotating pad 13332 with Between lid pillar 13362, to prevent heat to be lost between inner disc carrier 1331 from lid 13361 with reacting.Preferably, core The quantity of portion's heat-preservation cotton 13368 is at least one, so that on the inside of the filling of core heat-preservation cotton 13368 completely rotating pad 13332 The space of short transverse ensures heat insulation effect.In the present embodiment, the quantity of core heat-preservation cotton 13368 is three, three cores Heat-preservation cotton 13368 is stacked in the inside of rotating pad 13332.Certainly, the quantity of core heat-preservation cotton 13368 can also be two It is a, four or even more.

Optionally, insulation cover structure 1336 further includes fixation kit 13367, the connection reaction heat preservation group of fixation kit 13367 Lid 13361 can be fixed on the outer wall of reaction heat insulation module 13352 by part 13352 and lid 13361, fixation kit 13367 In heat-preservation cotton 133523.Specifically, fixation kit 13367 includes the outer briquetting 133671 of annular and guide pin 133672, annular is outer Briquetting 133671 is set between lid 13361 and outer wall heat-preservation cotton 133523, and annular outer briquetting 133671 can ensure lid Leakproofness between 13361 and outer wall heat-preservation cotton 133523 avoids heat between lid 13361 and outer wall heat-preservation cotton 133523 It is lost in.Moreover, opening up guiding mounting groove on lid 13361, guide pin 133672, which is worn, to be oriented to mounting groove and is installed on outside annular On briquetting 133671 so that lid 13361 is fixedly connected with annular outer briquetting 133671, to ensure lid 13361 and annular Outer briquetting 133671 is fixed reliably.Optionally, fixation kit 13367 further includes briquetting 133673 in annular, briquetting in annular 133673 are set between lid 13361 and inner wall heat-preservation cotton 133522, ensure lid 13361 and inner wall heat-preservation cotton 133522 it Between leakproofness, avoid heat from being lost between lid 13361 and inner wall heat-preservation cotton 133522, while limiting inner wall heat-preservation cotton 133522 upward degree of freedom.Optionally, the quantity of lid pillar 13362 is at least two, can ensure core cap 13364 in this way It is reliable to be fixed on reaction mounting base, then ensure that lid 13361 is reliable and is fixed on reaction mounting base.

Optionally, insulation cover structure 1336 further includes observation lid 13369, is further opened with watch window on lid 13361, sees It examines lid 13369 to be switchably located in the watch window of lid 13361, reacts inner disc carrier to be conveniently operated personal observations Operation conditions in 1331, while convenient cleaning reaction vessel 20 manually.In the present embodiment, one end of observation lid 13369 can turn Be fixed on dynamicly on lid 13361, observe lid 13369 the other end can around observation lid 13369 one end rotate, with open or Person closes watch window.Optionally, insulation cover structure 1336 further includes spinner, and the other end of observation lid 13369 is revolved by spinner Together on lid 13361.When needing observation, spinner is unscrewed, so that observation lid 13369 can be opened；When without observing, rotation Observation lid 13369 can be fixed on lid 13361 by button, and observation lid 13369 is avoided arbitrarily to open.Certainly, new in this practicality In the another embodiment of type, observation lid 13369 or transparent window, in order to directly observe, at this point, observation lid 13369 are structure as a whole with lid 13361.Certainly, in a further embodiment of the utility model, entire lid 13361 Transparent material can be used to be made, i.e., lid 13361 is transparent setting, no longer needs to that observation is arranged on lid 13361 at this time Lid 13369, operating personnel can directly observe the fortune in entire reaction inner disc carrier 1331 by transparent lid 13361 Row situation.

As a kind of embodiment, measuring device 15 is for being detected the determinand in reaction vessel 20, to obtain To the corresponding detection parameters of sample.Specifically, measuring device 15 includes bottom plate, inner casing, shell, upper cover, measures turntable, driving machine Structure, the first substrate nozzle, the second substrate nozzle, photomultiplier detection components and waste suction liquid needle assemblies.Bottom plate, shell and upper cover The receiving space of measuring device 15 is surrounded, measures turntable, inner casing is located in receiving space, bottom plate, shell, inner casing, upper cover and survey It measures turntable and constitutes a darkroom.Measuring device 15 also have multiple reactor vessel processes stations, multiple reactor vessel processes stations it Between mutually every light seal.In the present invention, it is illustrated so that the quantity of reactor vessel processes station is four as an example.Four It is mutually sealed every light between reactor vessel processes station.When measurement：

First reactor vessel processes station (reaction vessel 20 enters station)：Reaction vessel 20 is in the first reactor vessel processes It is placed into or takes out at station in measuring device 15；

(I station of excitation substrate is added) in second reactor vessel processes station：First substrate nozzle is set to the second reaction appearance Device is handled at station, excitation substrate I is added to reaction vessel 20；

Third reactor vessel processes station (reaction vessel 20 measures station)：Second substrate nozzle, which is set to third reaction, to be held Device is handled at station, and excitation substrate II is added to reaction vessel 20, photomultiplier detection components are set to third reaction and hold Device is handled at station；

4th reactor vessel processes station (takes out waste liquid station)：Waste suction liquid needle assemblies are set to the 4th reactor vessel processes work With the waste liquid of abstraction reaction container 20 at position.

First reactor vessel processes station, the second reactor vessel processes station, third reactor vessel processes station and the 4th Reactor vessel processes station is arranged in order and along turntable sense of rotation is measured mutually every light sealing, the first reactor vessel processes station Diagonally it is arranged with third reactor vessel processes station, the second reactor vessel processes station and the 4th reactor vessel processes station are diagonal Setting.Bottom plate, inner casing, shell, upper cover and measure turntable the processing of structure setting and each reactor vessel processes station function And its used mechanism is adapted.Driving mechanism measures turntable rotation for driving, and driving mechanism is using motor etc. as dynamic Power source, and using the transmission of the realization power such as gear drive motivation structure, turntable rotation is measured with driving.

Optionally, measuring device 15 further include every optical assembly, by separating each reactor vessel processes station every optical assembly, with Ensure every optical property.Further, it is realized every light processing every the structure of light using light insulation pad or other realizations every optical assembly.

Moreover, measuring device 15 is located at the side for reacting outer disc mechanism 132, and it is disposed adjacent with cleaning device 14.It is different Sample process flow there are difference, some samples are directly measured by measuring device 15 after cleaning, some samples It needs to be then transferred to after cleaning in reaction unit 13 and carries out the operations such as secondary reagent adding, some samples are directly carried out without cleaning It measures.Therefore, measuring device 15 is located at the side for reacting outer disc mechanism 132, and measuring device 15 and cleaning with cleaning device 14 Device 14 is disposed adjacent, and such reaction vessel 20 disc mechanism 133 and reaction in measuring device 15, cleaning device 14, reaction is outer When being shifted between disc mechanism 132, the path of the transfer of reaction vessel 20 can be shortened, improve the speed that reaction vessel 20 shifts, into And improve the operational efficiency of chemiluminescence detector.Chemiluminescence detector, which also has to measure, grabs cup mechanism 165, that is, grabs cup device 16 further include measuring to grab cup mechanism 165, and measurement grabs cup mechanism 165 and corresponds to cleaning device 14 and the setting of measuring device 15, and being used for will Reaction vessel 20 after being cleaned in cleaning device 14 is transferred in measuring device 15.That is, measure grab cup mechanism 165 can The reaction vessel 20 cleaned after being cleaned to impurity on turntable is transferred on the measurement turntable of measuring device 15, and is turned by measuring Disk drives reaction vessel 20 to turn over each reactor vessel processes station successively, to be detected to the determinand in reaction vessel 20, Obtain the detection parameters of sample.

As a kind of embodiment, chemiluminescence detector further includes sample conveying device 19, for conveying sample To sample position；Sample position is located at the side of buffering disc mechanism 131 and corresponding sample charging mechanism 121 is arranged；Sample charging mechanism 121 exists Sample position is drawn sample and is transferred in the reaction vessel 20 of buffering disc mechanism 131.Sample conveying device 19 is waited for for conveying Test sample sheet realizes the Automatic Conveying of sample to be tested, to improve sample introduction efficiency.Moreover, sample conveying device 19 conveys sample To sample position, sample charging mechanism 121 draws sample at sample position and is transferred to the reaction vessel 20 of buffering disc mechanism 131 In, the distance of sample transfer can be shortened in this way, improve sample transfer efficiency.

Specifically, sample conveying device 19 includes sample storing mechanism 191 and is detachably connected with sample storing mechanism 191 Sample conveying mechanism 192, store multiple sample racks for being mounted with sample, sample storing mechanism 191 in sample storing mechanism 191 Sample rack is transported in sample conveying mechanism 192, and sample position is delivered to by sample conveying mechanism 192.Sample conveying dress It further includes sample transfer device to set 19, and sample transfer device can make the sample rack in sample storing mechanism 191 be transferred to sample In conveying mechanism 192.Sample storing mechanism 191 has conveying mouth, and sample rack is transferred to sample transfer device by conveying mouth On, and sample rack is transferred on sample conveying mechanism 192 by sample transfer device.Sample conveying mechanism 192 includes track Component and become rail structure, sample transfer device can dock with the transmission channel of rail assembly, so that rail assembly is by sample It is transported to sample position.Rail assembly realizes the conveying of sample rack using synchronous band structure etc..Become rail structure and enables to sample Frame shifts between multiple transmission channels of rail assembly.Optionally, sample transfer device includes ferry-boat trolley, small by ferrying Vehicle realizes that sample storing mechanism 191 is connected to transmission channel.Certainly, sample transfer device can also be transfer orbit or crawl knot Structure etc. can realize the structure of sample rack transfer.Moreover, in the other embodiment of the utility model, sample conveying device 19 The mode that sample disk can also be used realizes the conveying of sample.

When 19 transmission sample of sample conveying device, the sample rack equipped with sample to be tested is put sample by operating personnel manually In storing mechanism 191；Sample storing mechanism 191 is examined by connection structures such as support element and suspenders mounted on chemiluminescence It surveys on the apparatus subject of instrument.Ferry-boat trolley chooses sample to be tested frame and delivers sample rack to the track of sample conveying mechanism 192 In the transmission channel of component, sample rack is transported to by sample position by rail assembly.After the completion of waiting for that sample charging mechanism 121 samples, Become the transmission channel that rail structure changes the sample rack that sampling finishes, the sample rack that sampling finishes is transferred to sample structure for conveying Input terminal, and the sample rack that finishes of sampling is transported in sample storing mechanism 191 by trolley of ferrying, operating personnel's recycling The sample rack finished is sampled in sample storing mechanism 191.

When more chemiluminescence detector splicings are in use, the input terminal of sample conveying mechanism 192 can be stored with sample Mechanism 191 is docked, or is docked with the output end of the sample conveying mechanism 192 of another chemiluminescence detector.Sample conveyer The output end of structure 192 can be docked with the input terminal of the sample conveying mechanism 192 of another chemiluminescence detector.That is, Sample storing mechanism 191 by a chemiluminescence detector is the sample conveying mechanism 192 of more chemiluminescence detectors Transmission sample realizes pile line operation.It is illustrated so that three chemiluminescence detectors splice as an example.First chemiluminescence is examined The input terminal for surveying the sample conveying mechanism 192 of instrument is docked with sample storing mechanism 191, the sample of First chemiluminescence detector The output end of conveying mechanism 192 is docked with the input terminal of second sample conveying mechanism 192, second sample conveying mechanism 192 Output end docked with the input terminal of third platform sample conveying mechanism 192.It is deposited by the sample of First chemiluminescence detector It is that three chemiluminescence detectors convey sample to store up mechanism 191.

As a kind of embodiment, sample charging mechanism 121 includes straight line slide unit, sample-adding module and hinged cantilever, is loaded mould Block is used for being loaded.Fluid suction head can be generally set in sample-adding module, to be sampled.In the utility model, sample-adding module is ADP modules.ADP modules：That is air-displacement pipetting module, Chinese are entitled：Pneumatic liquid relief module. In other embodiments, sample-adding module may be the sampling module being mainly made of draw point, fluid path and plunger pump.It is loaded module peace On hinged cantilever, sample-adding module is supported by hinged cantilever, while driving sample-adding module around the rotation of hinged cantilever Center rotating.Hinged cantilever is slidably mounted on straight line slide unit, drives hinged cantilever to move linearly by straight line slide unit.Specifically , straight line slide unit is sliding-rail sliding structure and/or synchronous band structure etc., to drive hinged cantilever to move in a straight line.In this way, straight line Slide unit coordinates with hinged cantilever so that being loaded module after sample position draws sample, and be transferred to the anti-of buffering disc mechanism 131 It answers in container 20.

Since the fluid suction head in sample-adding module is that medical disposable material needs to pass automatically to ensure the continuity of transfer sample Defeated fluid suction head.Therefore, chemiluminescence detector further includes consumption material box loading device 18, and fluid suction head is loaded for transmitting automatically Consumptive material the storage box, and consumptive material the storage box can also be delivered to " loaded " position by consumption material box loading device 18；Sample charging mechanism 121 is loading Position loads fluid suction head, and shifts sample by fluid suction head.Fluid suction head is filled in consumptive material the storage box.Consumption material box loading device 18 wraps Include consumption material box receiving storehouse, consumption material box surge bunker, consumption material box transport mechanism and consumption material box gripping body.Consumption material box transport mechanism uses Synchronous band structure etc. realizes the horizontal movement with vertical direction, so that consumptive material the storage box can be transferred to " loaded " position.Consumptive material Consumptive material the storage box can be accommodated in consumption material box and be passed between storehouse, consumption material box surge bunker and consumption material box transport mechanism by box gripping body It send.In the present embodiment, fluid suction head is TIP heads, the TIP disposable tips for sampling.

Operating personnel are placed in consumption material box accommodates storehouse fill the consumptive material the storage box of fluid suction head manually, on consumption material box surge bunker Two buffering frames it is vacant.The consumptive material the storage box that consumption material box gripping body grips in a consumption material box receiving storehouse is placed on consumption material box On the delivery frame of transport mechanism, delivery frame transports consumptive material the storage box to " loaded " position, " loaded " position can to consumptive material the storage box into Luggage carries positioning so that the sample-adding module of sample charging mechanism 121 carries out fluid suction head loading in " loaded " position.Consumption material box gripping body presss from both sides After taking a consumptive material the storage box to place on delivery frame, then accommodates one consumptive material the storage box of crawl in storehouse from consumption material box and be placed on consumptive material In first buffering frame of box surge bunker.After waiting for that the fluid suction head in the consumptive material the storage box of " loaded " position is finished, delivery frame transports Empty consumptive material the storage box returns, and the empty consumptive material the storage box of consumption material box gripping body gripping is placed on second on consumption material box surge bunker In a buffering frame.After empty consumptive material the storage box is placed in second buffering frame on consumption material box surge bunker, consumption material box catching device Structure grips the consumptive material the storage box in first buffering frame and is placed on delivery frame, and delivery frame transports consumptive material the storage box.Consumption material box presss from both sides It takes mechanism to grip the empty consumptive material the storage box in second buffering frame to be placed on consumption material box receiving storehouse.Consumption material box gripping body presss from both sides One new consumptive material the storage box for filling fluid suction head of gripping from consumption material box receiving storehouse is taken to be placed on the first of consumption material box surge bunker In a buffering frame.The above action is repeated, realizes the continuous loading of consumptive material the storage box.It is understood that when empty consumptive material storage When box fills entire consumption material box receiving storehouse, consumption material box receiving storehouse can be directly extracted out, user takes empty consumptive material the storage box away, and Consumption material box, which accommodates, loads new consumptive material the storage box in storehouse.After the completion of loading, then consumption material box is accommodated into storehouse and is pushed into, consumption material box catching device Structure grips consumptive material the storage box again, and repeats aforesaid operations.Due to two buffering frames of setting, after extraction consumption material box accommodates storehouse, Instrument internal can also realize loading and the recycling of consumptive material the storage box, to realize continuous load.

Further, consumption material box loading device 18 is located at the separate buffering disc mechanism of reaction vessel automatic conveying device 17 131 side, and corresponding sample charging mechanism 121 is arranged.The transmission path of consumptive material the storage box can be shortened in this way, improve transmission effect Rate；It can also the space occupied is reduced, to reduce the machine volume of chemiluminescence detector.

As a kind of embodiment, chemiluminescence detector further includes pedestal 10, and pedestal 10 has carrying platform, reaction The carrying that device 13, measuring device 15, cleaning device 14, dispenser 12 and reagent storage means 11 may be contained within pedestal 10 is flat On platform.Reagent storage means 11, consumption material box loading device 18, sample conveying device 19 sample conveying mechanism 192 and sample deposit Storage mechanism 191 encloses the surrounding set on carrying platform respectively, and positioned at the marginal position of carrying platform.Reaction vessel transmits dress automatically 17 are set between consumption material box loading device 18 and the buffering disc mechanism 131 of reaction unit 12.As shown in Figure 1, reagent storage dress Two reagent storing mechanisms 111 for setting 11 are located at marginal position on front side of carrying platform, and consumption material box loading device 18 is located at carrying The marginal position of platform sinistral, sample storing mechanism 191 are located at the marginal position on the right side of carrying platform, sample conveying mechanism 192 Marginal position on rear side of carrying platform.The outer disc mechanism 132 of reaction is located at the central region of carrying platform, buffers disc mechanism 131, reaction vessel automatic conveying device 17, measuring device 15 and cleaning device 14 are enclosed set on the side for reacting outer disc mechanism 132； Sample charging mechanism 121 is located between buffering disc mechanism 131 and sample conveying mechanism 192；Evenly mixing device is set to the outer disc mechanism of reaction On 132, and corresponding mixing station setting.Since the primary operational face of sample storing mechanism 191 is on right side, operating personnel are from right side To 191 sample loading frame of sample storing mechanism, ferry-boat trolley takes out sample rack from sample storing mechanism 191, and is sent into instrument In the sample conveying mechanism 192 of rear side, sample rack is transported to sample position, sample is drawn by sample charging mechanism 121.It draws and completes Afterwards, sample rack is sent back to through trolley of ferrying in sample storing mechanism 191 by sample conveying mechanism 192 again, is taken out by operating personnel.

Further, chemiluminescence detector further includes control device and fluid path device；Control device and reaction unit 13, Measuring device 15, cleaning device 14, dispenser 12 and reagent storage means 11 are electrically connected, and fluid path device connects with dispenser 12 It connects；Also there is pedestal 10 accommodating space, accommodating space to be located at the lower section of carrying platform, and control device and fluid path device are set to appearance In between emptying.Control loads automatically controlling for each parts for being used for realizing chemiluminescence detector, so that each zero Part can realize automation mechanized operation, improve working efficiency.Fluid path device and pipetting device 122 and the main cleaning machine of cleaning device 14 Structure is connected to secondary wiper mechanism, and for pipetting device 122 and main wiper mechanism and secondary wiper mechanism provides cleaning solution or discharge is useless Liquid.

Moreover, being partly located at the top of carrying platform on reaction vessel automatic conveying device 17, it is flat that lower part is located at carrying In lower section, that is, accommodating space of platform.Specifically, drawer mechanism, reaction vessel storing mechanism and the second reaction vessel recovering mechanism It is set in accommodating space, reaction vessel hoisting mechanism and the first reaction vessel recovering mechanism are located above carrying platform.Work as pumping When drawer mechanism is extracted out, is loading reaction vessel box to reaction vessel storing mechanism and returned in the second reaction vessel recovering mechanism While receiving reaction vessel box, reaction vessel hoisting mechanism and the first reaction vessel recovering mechanism still are able to realize reaction vessel box Load and recycling, realize reaction vessel box it is continuous load with continuously recycle so that instrument being capable of normal operation.Carrying platform Reaction vessel hoisting mechanism and the first reaction vessel recovering mechanism can be supported, lock out operation when drawer mechanism being facilitated to extract out； Accommodating space can also accommodate drawer mechanism, reaction vessel storing mechanism and the second reaction vessel recovering mechanism so that close in space Reason utilizes, to ensure machine volume.

The utility model also provides a kind of detection method of chemiluminescence detector, which is based on above-described embodiment In chemiluminescence detector.Detection method includes the following steps：

It is loaded this step；Sample is transferred in reaction vessel 20；

Reagent adding step；It will be in agent transfer to reaction vessel 20；

Mixing step；Mixture in reaction vessel 20 is uniformly mixed；

Incubation step；Incubation operation is carried out to the mixture being uniformly mixed in reaction vessel 20；

Separation cleaning step；The impurity in reaction vessel 20 after removal incubation；

Measuring process；Determinand in reaction vessel 20 after cleaning is detected.

When to pattern detection, reaction vessel automatic conveying device 17 will react the chemiluminescence detector of the utility model Container is transferred in reaction vessel positioning blanking mechanism, and consumptive material the storage box is transported to and loads position by consumption material box loading device 18 It sets.Sample rack is transferred in sample storing mechanism 191 by sample conveying mechanism 192 by sample conveying device 19 inhales sample position It sets.Cup mechanism 161 is grabbed by new cup the reaction vessel 20 in reaction vessel box is transferred in buffering disc mechanism 131 in case using. The sample-adding module of sample charging mechanism 121 loads a new TIP head, and draws sample in sample position and be transferred to buffering disc mechanism In 131 one or more reaction vessel 20.Sample, which grabs cup mechanism 162, will buffer 20 turns of reaction vessel in disc mechanism 131 It moves on to and reacts in outer disc mechanism 132；Reaction external disk carrier 1321 drives reaction vessel 20 to move to reagent adding station, liquid relief machine Structure 122 is drawn the reagent in reagent storing mechanism 111 and is transferred in reaction vessel 20 in reagent adding station；React external disk carrying Disk 1321 drives reaction vessel 20 to move to mixing station, and evenly mixing device drives reaction vessel 20 to be shaken with fixed frequency, with mixed Mixture in even reaction vessel 20.Reaction vessel 20 after mixing grabs cup mechanism 163 by incubation and is transferred to disc mechanism in reaction Incubation operation is carried out in 133 so that sample is fully reacted with reagent.Reaction vessel 20 after the completion of incubation grabs cup mechanism by cleaning 164 are transferred in cleaning device 14 and carry out cleaning operation, to remove the impurity in reaction vessel 20.Reaction vessel 20 after cleaning It cup mechanism 165 is grabbed by measurement is transferred in measuring device 15 and measure operation, to be measured in the reaction vessel 20 after cleaning Object is detected.

Detection method includes test sample method and system test method, and what above-mentioned detection method illustrated is test sample side Method below illustrates system detection method.System testing is divided into background measurement and optical test measures.Chemiluminescence detector When carrying out background measurement, it is sent into empty reaction vessel 20 into cleaning device 14, cup mechanism is grabbed by measurement after over cleaning 165 are transferred in measuring device 15, and measuring device 15 fills substrate solution to reaction vessel 20, measure background luminous value.Chemistry hair Optical detector is added into reaction vessel 20 in reaction unit 13 when carrying out optical test measurement and quantitative carries luminous mark The compound for remembering object, is transferred directly to without over cleaning in measuring device 15, and measuring device 15 fills substrate to reaction vessel 20 Liquid measures its luminous value.

Further, detection method further includes following steps：

Before separation cleaning step, the reagent adding step, mixing step and incubation step of at least one cycle are repeated Suddenly；And/or

Before measuring process, repeat the reagent adding step of at least one cycle, mixing step, incubation step and point From cleaning step.

It should be noted that chemiluminescence detector adds number when being detected to sample, according to reagent, it is divided into one Footwork, two-step method, three-step approach, four step rule.One-step method adds a reagent, and reagent, three-step approach are twice for two-step method i.e. addition Reagent, four step rule add four reagents three times for addition.It is required for carrying out mixing and incubate to operate after addition reagent every time, and And before incubating operation, mixing operation can be carried out, can also be operated without mixing.

Also, cleaning operation can be carried out between the adjacent reagent of addition twice, cleaning operation can not also be carried out；When into When row cleaning operation, then grabbing cup mechanism 164 by cleaning, the disc mechanism 133 out of reaction is transferred to cleaning device 14 by reaction vessel 20 In cleaned, after the completion of cleaning, then cup mechanism 164 is grabbed by cleaning, reaction vessel 20 is transferred to reaction from cleaning device 14 The cleaning of outer disc mechanism 132 puts glass station and carries out subsequent reagent adding operation；When without cleaning operation, cup mechanism is grabbed in cleaning 164 directly the reaction vessel 20 in disc mechanism in reaction 133 is transferred to react outer disc mechanism 132 cleaning put glass station into The subsequent reagent adding operation of row.Also, before measuring device 15 is detected the determinand in reaction vessel 20, it is necessary to by clear Cleaning device 14 carries out separation cleaning operation, to remove the impurity of reaction vessel 20, ensures that 15 testing result of measuring device accurately may be used It leans on.

In addition, part sample also needs to addition pretreating reagent when detecting, to ensure the accuracy of pattern detection result.This In pretreating reagent refer to the liquid added, solid or mixture etc. before formally addition reagent.Therefore, detection side Method further includes following steps：Before reagent adding step, pretreating reagent is transferred in reaction vessel.That is, detection side Method further includes adding pretreating reagent step, also, pretreating reagent is stored in reagent storing mechanism, adds pretreating reagent operation by liquid relief Mechanism 122 realizes.After pipetting device 122 shifts pretreating reagent into reaction vessel, reacts outer disc mechanism 132 and drive reaction vessel Reagent adding operation and follow-up corresponding operation are executed after one circle of rotation again.It should be noted that the outer disc mechanism 132 of reaction drives The reaction vessel of pretreating reagent is added during rotating a circle, without mixing step and incubation step.

In the present invention, above-mentioned pattern detection process is only illustrated by taking three-step approach as an example.A kind of situation is：Hold to reaction After adding sample in device 20, after repeating and sequentially executing reagent adding step, mixing step and incubation step three times, to reaction vessel Impurity in 20 carries out separation cleaning operation, then measures operation to the determinand in reaction vessel 20 again.Another feelings Condition is：After adding sample into reaction vessel 20, repeats and sequence executes reagent adding step, mixing step, incubation step and divides Three times from cleaning step, operation then is measured to the determinand in reaction vessel 20 again.Another situation is：Hold to reaction After adding sample in device 20, after sequence executes reagent adding step, mixing step and incubation step, repeats and sequence executes reagent adding Step, mixing step, incubation step and separation cleaning step twice, then again measure the determinand in reaction vessel 20 Operation.

Still further, before measuring process, separation cleaning step to the impurity in the reaction vessel 20 after incubation into Separation cleaning operates row at least once.

That is, chemiluminescence detector is when to pattern detection, it can be to reaction vessel 20 before measuring process In impurity once clean, clean even more be cleaned multiple times twice, can ensure that the impurity in reaction vessel 20 is clear in this way Wash clean, and then ensure that measuring device 15 measures accurately.It is understood that above said cleaning twice refers to continuous wash two It is secondary.Continuous wash is twice, certainly, also capable of washing primary before measuring process.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the record scope of this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it should not be understood as limiting the scope of the patent of the utility model.It should be pointed out that for the common of this field For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to In the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (17)

1. a kind of chemiluminescence detector, which is characterized in that including：

Reagent storage means are used for storing reagent；

Reaction unit is operated for carrying reaction vessel and carrying out sample-adding sheet, reagent adding and incubate；The reaction unit includes For carrying the reaction vessel and carrying out reagent adding outer disc mechanism is reacted with what mixing operated and for carrying the reaction appearance Device simultaneously carries out incubating disc mechanism in the reaction of operation, and the outer disc mechanism of the reaction is sheathed on the outside of disc mechanism in the reaction simultaneously It independently runs, and the setting coaxial with disc mechanism in the reaction of the outer disc mechanism of the reaction；

Dispenser, for sample and reagent to be transferred to respectively in the reaction vessel；

Cleaning device, for removing the impurity in the reaction vessel；And

Measuring device, for being detected to the determinand in the reaction vessel；

The reagent storage means, the dispenser, the cleaning device and the measuring device are enclosed outside the reaction The side of disc mechanism.

2. chemiluminescence detector according to claim 1, which is characterized in that the reaction unit further includes buffer disc machine Structure, the buffering disc mechanism are arranged independently of disc mechanism outside the reaction, and positioned at the side of the outer disc mechanism of the reaction.

3. chemiluminescence detector according to claim 2, which is characterized in that the dispenser include sample charging mechanism and Pipetting device, the sample charging mechanism is located at the side of the buffering disc mechanism, for sample to be transferred to the buffering disc mechanism The reaction vessel in；The pipetting device corresponds to the outer disc mechanism of the reaction and reagent storing mechanism setting, described Pipetting device will be in the reaction vessel of disc mechanism outside the agent transfer to the reaction in the reagent storing mechanism.

4. chemiluminescence detector according to claim 3, which is characterized in that the outer disc mechanism of the reaction has multiple anti- Station is answered, including adds a glass station, reagent adding station and incubates and take a glass station；Disc mechanism, which has to incubate, in the reaction puts a glass work Position；

The buffering disc mechanism corresponds to the setting of described plus cup station, and the reaction vessel in the buffering disc mechanism is transferred to In the described plus cup station of the outer disc mechanism of the reaction；

The pipetting device and the reagent storage means correspond to reagent adding station setting, and the pipetting device is by the examination The reagent adding station of disc mechanism corresponds in the reaction vessel outside agent transfer to the reaction in agent storage device；

The incubation takes glass station to put a glass station with the incubation and is correspondingly arranged, and the reaction in the outer disc mechanism of the reaction is held Device takes glass station to be removed and be transferred to the incubation of disc mechanism in the reaction in the incubation puts glass station.

5. chemiluminescence detector according to claim 4, which is characterized in that there is disc mechanism cleaning to take in the reaction Cup station, the reaction station further include that a glass station is put in cleaning；

The cleaning device corresponds to the cleaning and glass station and the cleaning is taken to put a glass station setting, the reaction inner disc machine respectively The reaction vessel in structure takes a glass station to be removed and is transferred in the cleaning device, the cleaning device in the cleaning In the reaction vessel be transferred to the cleaning of the outer disc mechanism of the reaction and put in glass station.

6. chemiluminescence detector according to claim 4, which is characterized in that the reaction station further includes mixing work Position；The chemiluminescence detector further includes evenly mixing device, and the evenly mixing device is set on the outer disc mechanism of the reaction, and right The mixing station is answered to be arranged, for carrying out mixing behaviour to the mixture in the reaction vessel in disc mechanism outside the reaction Make.

7. chemiluminescence detector according to claim 6, which is characterized in that cup is put in described plus cup station, the cleaning Station, the reagent adding station, the mixing station and it is described incubation take glass station outside the reaction on disc mechanism sequence Arrangement.

8. chemiluminescence detector according to claim 3, which is characterized in that the chemiluminescence detector further includes using In the reaction vessel automatic conveying device for conveying the reaction vessel；The reaction vessel automatic conveying device is located at the buffering The side of disc mechanism；

The chemiluminescence detector also there is new cup to grab cup mechanism, and the new cup grabs cup mechanism, and to correspond to the reaction vessel automatic Transmitting device and reaction unit setting, for shifting the reaction vessel in the reaction vessel automatic conveying device Into the buffering disc mechanism.

9. chemiluminescence detector according to claim 4, which is characterized in that the chemiluminescence detector also has sample Originally cup mechanism is grabbed, is incubated and is grabbed cup mechanism, cleans to grab cup mechanism and measure and grab cup mechanism；

The sample grabs the described plus cup station setting that cup mechanism corresponds to the buffering disc mechanism and the outer disc mechanism of the reaction, uses It is transferred to outside the reaction in disc mechanism in by the reaction vessel for having added sample in the buffering disc mechanism；

The incubation, which grabs cup mechanism and corresponds to the incubation of the outer disc mechanism of the reaction, takes the institute of glass station and the reaction inner disc State incubation and put the setting of glass station, for by the reaction vessel outside the reaction between disc mechanism and disc mechanism in described react Transfer；

The cleaning grabs cup mechanism and corresponds to the cleaning device and the outer disc mechanism setting of the reaction, is used for the reaction vessel It is shifted between disc mechanism and the cleaning device outside the reaction；

The measurement grabs cup mechanism and corresponds to the cleaning device and measuring device setting, and being used for will be clear in the cleaning device The reaction vessel after the completion of washing is transferred in the measuring device.

10. chemiluminescence detector according to claim 9, which is characterized in that the measuring device is adjacent to the cleaning Device is arranged.

11. chemiluminescence detector according to claim 3, which is characterized in that the chemiluminescence detector further includes Sample conveying device, for sample to be delivered to sample position；The sample position is located at the side of the buffering disc mechanism simultaneously The corresponding sample charging mechanism setting；The sample charging mechanism draws sample in sample position and is transferred to the reaction of the reaction unit In container.

12. chemiluminescence detector according to claim 11, which is characterized in that the sample conveying device includes sample Storing mechanism and the sample conveying mechanism being detachably connected with the sample storing mechanism, storage is more in the sample storing mechanism The sample rack is transported in the sample conveying mechanism by a sample rack for being mounted with sample, the sample storing mechanism, and The sample position is delivered to by the sample conveying mechanism.

13. chemiluminescence detector according to claim 12, which is characterized in that the input terminal of the sample conveying mechanism It can be docked with the sample storing mechanism, or defeated with the sample conveying mechanism of another chemiluminescence detector Outlet is docked；

The output end of the sample conveying mechanism can be with the sample conveying mechanism of another chemiluminescence detector Input terminal docks.

14. chemiluminescence detector according to claim 8, which is characterized in that the chemiluminescence detector further includes Consumption material box loading device, for automatically transmit load fluid suction head consumptive material the storage box, and the consumption material box loading device can also will The consumptive material the storage box is delivered to " loaded " position；The sample charging mechanism loads the fluid suction head in the " loaded " position, and passes through The fluid suction head shifts sample.

15. chemiluminescence detector according to claim 14, which is characterized in that the consumption material box loading device is located at institute State the side of the separate buffering disc mechanism of reaction vessel automatic conveying device, and the corresponding sample charging mechanism setting.

16. chemiluminescence detector according to claim 1, which is characterized in that the chemiluminescence detector further includes Pedestal, the pedestal have carrying platform, the reaction unit, the measuring device, the cleaning device, the dispenser And the reagent storage means may be contained on the carrying platform.

17. chemiluminescence detector according to claim 16, which is characterized in that the chemiluminescence detector further includes Control device and fluid path device；It is the control device and the reaction unit, the measuring device, the cleaning device, described Dispenser and reagent storage means electrical connection, the fluid path device are connect with the dispenser；The pedestal also has There are accommodating space, the accommodating space to be located at the lower section of the carrying platform, the control device and fluid path device are set to institute It states in accommodating space.